X-Git-Url: https://main.carlh.net/gitweb/?a=blobdiff_plain;f=libs%2Fardour%2Fmeter.cc;h=8de49140962f3b9de99e54b665cd6530d4c84e76;hb=551e20b926e164b3579d5e6b39f5e2fcb1ced93e;hp=0c23ea168dbd6a39d881b81432751b7af6cbdd3a;hpb=d327ab43cf6eda75b05e016f344f602390d59b8a;p=ardour.git diff --git a/libs/ardour/meter.cc b/libs/ardour/meter.cc index 0c23ea168d..8de4914096 100644 --- a/libs/ardour/meter.cc +++ b/libs/ardour/meter.cc @@ -18,6 +18,7 @@ #include #include +#include #include "pbd/compose.h" @@ -34,8 +35,6 @@ using namespace std; using namespace ARDOUR; -PBD::Signal0 Metering::Meter; - PeakMeter::PeakMeter (Session& s, const std::string& name) : Processor (s, string_compose ("meter-%1", name)) { @@ -43,6 +42,11 @@ PeakMeter::PeakMeter (Session& s, const std::string& name) Iec1ppmdsp::init(s.nominal_frame_rate()); Iec2ppmdsp::init(s.nominal_frame_rate()); Vumeterdsp::init(s.nominal_frame_rate()); + _pending_active = true; + _meter_type = MeterPeak; + _reset_dpm = true; + _reset_max = true; + _bufcnt = 0; } PeakMeter::~PeakMeter () @@ -57,6 +61,11 @@ PeakMeter::~PeakMeter () _iec2meter.pop_back(); _vumeter.pop_back(); } + while (_peak_power.size() > 0) { + _peak_buffer.pop_back(); + _peak_power.pop_back(); + _max_peak_signal.pop_back(); + } } @@ -73,6 +82,10 @@ PeakMeter::run (BufferSet& bufs, framepos_t /*start_frame*/, framepos_t /*end_fr if (!_active && !_pending_active) { return; } + const bool do_reset_max = _reset_max; + const bool do_reset_dpm = _reset_dpm; + _reset_max = false; + _reset_dpm = false; // cerr << "meter " << name() << " runs with " << bufs.available() << " inputs\n"; @@ -81,12 +94,16 @@ PeakMeter::run (BufferSet& bufs, framepos_t /*start_frame*/, framepos_t /*end_fr uint32_t n = 0; + const float falloff_dB = Config->get_meter_falloff() * nframes / _session.nominal_frame_rate(); + const uint32_t zoh = _session.nominal_frame_rate() * .021; + _bufcnt += nframes; + // Meter MIDI in to the first n_midi peaks for (uint32_t i = 0; i < n_midi; ++i, ++n) { float val = 0.0f; - MidiBuffer& buf (bufs.get_midi(i)); + const MidiBuffer& buf (bufs.get_midi(i)); - for (MidiBuffer::iterator e = buf.begin(); e != buf.end(); ++e) { + for (MidiBuffer::const_iterator e = buf.begin(); e != buf.end(); ++e) { const Evoral::MIDIEvent ev(*e, false); if (ev.is_note_on()) { const float this_vel = ev.buffer()[2] / 127.0; @@ -100,13 +117,47 @@ PeakMeter::run (BufferSet& bufs, framepos_t /*start_frame*/, framepos_t /*end_fr } } } - _peak_signal[n] = max (val, _peak_signal[n]); + if (_peak_power[n] < (1.0 / 512.0)) { + _peak_power[n] = 0; + } else { + /* empirical algorithm WRT to audio falloff times */ + _peak_power[n] -= sqrtf (_peak_power[n]) * falloff_dB * 0.045f; + } + _peak_power[n] = max(_peak_power[n], val); + _max_peak_signal[n] = 0; } // Meter audio in to the rest of the peaks for (uint32_t i = 0; i < n_audio; ++i, ++n) { - _peak_signal[n] = compute_peak (bufs.get_audio(i).data(), nframes, _peak_signal[n]); - if (_meter_type & (MeterKrms | MeterK20 | MeterK14)) { + if (bufs.get_audio(i).silent()) { + ; + } else { + _peak_buffer[n] = compute_peak (bufs.get_audio(i).data(), nframes, _peak_buffer[n]); + _max_peak_signal[n] = std::max(_peak_buffer[n], _max_peak_signal[n]); // todo sync reset + } + + if (do_reset_max) { + _max_peak_signal[n] = 0; + } + + if (do_reset_dpm) { + _peak_buffer[n] = 0; + _peak_power[n] = -std::numeric_limits::infinity(); + } else { + // falloff + if (_peak_power[n] > -318.8f) { + _peak_power[n] -= falloff_dB; + } else { + _peak_power[n] = -std::numeric_limits::infinity(); + } + _peak_power[n] = max(_peak_power[n], accurate_coefficient_to_dB(_peak_buffer[n])); + // integration buffer, retain peaks > 49Hz + if (_bufcnt > zoh) { + _peak_buffer[n] = 0; + } + } + + if (_meter_type & (MeterKrms | MeterK20 | MeterK14 | MeterK12)) { _kmeter[i]->process(bufs.get_audio(i).data(), nframes); } if (_meter_type & (MeterIEC1DIN | MeterIEC1NOR)) { @@ -121,8 +172,13 @@ PeakMeter::run (BufferSet& bufs, framepos_t /*start_frame*/, framepos_t /*end_fr } // Zero any excess peaks - for (uint32_t i = n; i < _peak_signal.size(); ++i) { - _peak_signal[i] = 0.0f; + for (uint32_t i = n; i < _peak_power.size(); ++i) { + _peak_power[i] = -std::numeric_limits::infinity(); + _max_peak_signal[n] = 0; + } + + if (_bufcnt > zoh) { + _bufcnt = 0; } _active = _pending_active; @@ -131,10 +187,16 @@ PeakMeter::run (BufferSet& bufs, framepos_t /*start_frame*/, framepos_t /*end_fr void PeakMeter::reset () { - for (size_t i = 0; i < _peak_signal.size(); ++i) { - _peak_signal[i] = 0.0f; + if (_active || _pending_active) { + _reset_dpm = true; + } else { + for (size_t i = 0; i < _peak_power.size(); ++i) { + _peak_power[i] = -std::numeric_limits::infinity(); + _peak_buffer[i] = 0; + } } + // these are handled async just fine. for (size_t n = 0; n < _kmeter.size(); ++n) { _kmeter[n]->reset(); _iec1meter[n]->reset(); @@ -146,24 +208,18 @@ PeakMeter::reset () void PeakMeter::reset_max () { - for (size_t i = 0; i < _max_peak_power.size(); ++i) { - _max_peak_power[i] = -INFINITY; - _max_peak_signal[i] = 0; + if (_active || _pending_active) { + _reset_max = true; + return; } - - const size_t n_midi = min (_peak_signal.size(), (size_t) current_meters.n_midi()); - - for (size_t n = 0; n < _peak_signal.size(); ++n) { - if (n < n_midi) { - _visible_peak_power[n] = 0; - } else { - _visible_peak_power[n] = -INFINITY; - } + for (size_t i = 0; i < _max_peak_signal.size(); ++i) { + _max_peak_signal[i] = 0; + _peak_buffer[i] = 0; } } bool -PeakMeter::can_support_io_configuration (const ChanCount& in, ChanCount& out) const +PeakMeter::can_support_io_configuration (const ChanCount& in, ChanCount& out) { out = in; return true; @@ -178,7 +234,7 @@ PeakMeter::configure_io (ChanCount in, ChanCount out) current_meters = in; - reset_max_channels (in); + set_max_channels (in); return Processor::configure_io (in, out); } @@ -186,49 +242,38 @@ PeakMeter::configure_io (ChanCount in, ChanCount out) void PeakMeter::reflect_inputs (const ChanCount& in) { - for (uint32_t i = in.n_total(); i < current_meters.n_total(); ++i) { - if (i < _peak_signal.size()) { - _peak_signal[i] = 0.0f; - } - } - for (uint32_t i = in.n_audio(); i < current_meters.n_audio(); ++i) { - if (i >= _kmeter.size()) continue; - _kmeter[i]->reset(); - _iec1meter[i]->reset(); - _iec2meter[i]->reset(); - _vumeter[i]->reset(); - } - + reset(); current_meters = in; reset_max(); + // ConfigurationChanged() postponed +} - ConfigurationChanged (in, in); /* EMIT SIGNAL */ +void +PeakMeter::emit_configuration_changed () { + ConfigurationChanged (current_meters, current_meters); /* EMIT SIGNAL */ } void -PeakMeter::reset_max_channels (const ChanCount& chn) +PeakMeter::set_max_channels (const ChanCount& chn) { uint32_t const limit = chn.n_total(); const size_t n_audio = chn.n_audio(); - while (_peak_signal.size() > limit) { - _peak_signal.pop_back(); - _visible_peak_power.pop_back(); + while (_peak_power.size() > limit) { + _peak_buffer.pop_back(); + _peak_power.pop_back(); _max_peak_signal.pop_back(); - _max_peak_power.pop_back(); } - while (_peak_signal.size() < limit) { - _peak_signal.push_back(0); - _visible_peak_power.push_back(minus_infinity()); + while (_peak_power.size() < limit) { + _peak_buffer.push_back(0); + _peak_power.push_back(-std::numeric_limits::infinity()); _max_peak_signal.push_back(0); - _max_peak_power.push_back(minus_infinity()); } - assert(_peak_signal.size() == limit); - assert(_visible_peak_power.size() == limit); + assert(_peak_buffer.size() == limit); + assert(_peak_power.size() == limit); assert(_max_peak_signal.size() == limit); - assert(_max_peak_power.size() == limit); /* alloc/free other audio-only meter types. */ while (_kmeter.size() > n_audio) { @@ -261,69 +306,7 @@ PeakMeter::reset_max_channels (const ChanCount& chn) * of meter size during this call. */ -void -PeakMeter::meter () -{ - if (!_active) { - return; - } - - assert(_visible_peak_power.size() == _peak_signal.size()); - - const size_t limit = min (_peak_signal.size(), (size_t) current_meters.n_total ()); - const size_t n_midi = min (_peak_signal.size(), (size_t) current_meters.n_midi()); - - /* 0.01f ^= 100 Hz update rate */ - const float midi_meter_falloff = Config->get_meter_falloff() * 0.01f; - /* kmeters: 24dB / 2 sec */ - const float audio_meter_falloff = (_meter_type & (MeterK20 | MeterK14)) ? 0.12f : midi_meter_falloff; - - for (size_t n = 0; n < limit; ++n) { - - /* grab peak since last read */ - - float new_peak = _peak_signal[n]; /* XXX we should use atomic exchange from here ... */ - _peak_signal[n] = 0; /* ... to here */ - - if (n < n_midi) { - _max_peak_power[n] = -INFINITY; // std::max (new_peak, _max_peak_power[n]); // XXX - _max_peak_signal[n] = 0; - if (midi_meter_falloff == 0.0f || new_peak > _visible_peak_power[n]) { - ; - } else { - /* empirical algorithm WRT to audio falloff times */ - new_peak = _visible_peak_power[n] - sqrt(_visible_peak_power[n] * midi_meter_falloff * 0.0002f); - if (new_peak < (1.0 / 512.0)) new_peak = 0; - } - _visible_peak_power[n] = new_peak; - continue; - } - - /* AUDIO */ - - /* compute new visible value using falloff */ - - _max_peak_signal[n] = std::max(new_peak, _max_peak_signal[n]); - - if (new_peak > 0.0) { - new_peak = accurate_coefficient_to_dB (new_peak); - } else { - new_peak = minus_infinity(); - } - - /* update max peak */ - - _max_peak_power[n] = std::max (new_peak, _max_peak_power[n]); - - if (audio_meter_falloff == 0.0f || new_peak > _visible_peak_power[n]) { - _visible_peak_power[n] = new_peak; - } else { - // do falloff - new_peak = _visible_peak_power[n] - (audio_meter_falloff); - _visible_peak_power[n] = std::max (new_peak, -INFINITY); - } - } -} +#define CHECKSIZE(MTR) (n < MTR.size() + n_midi && n >= n_midi) float PeakMeter::meter_level(uint32_t n, MeterType type) { @@ -331,9 +314,10 @@ PeakMeter::meter_level(uint32_t n, MeterType type) { case MeterKrms: case MeterK20: case MeterK14: + case MeterK12: { - const int n_midi = current_meters.n_midi(); - if ((n - n_midi) < _kmeter.size() && (n - n_midi) >= 0) { + const uint32_t n_midi = current_meters.n_midi(); + if (CHECKSIZE(_kmeter)) { return accurate_coefficient_to_dB (_kmeter[n - n_midi]->read()); } } @@ -341,8 +325,8 @@ PeakMeter::meter_level(uint32_t n, MeterType type) { case MeterIEC1DIN: case MeterIEC1NOR: { - const int n_midi = current_meters.n_midi(); - if ((n - n_midi) < _iec1meter.size() && (n - n_midi) >= 0) { + const uint32_t n_midi = current_meters.n_midi(); + if (CHECKSIZE(_iec1meter)) { return accurate_coefficient_to_dB (_iec1meter[n - n_midi]->read()); } } @@ -350,31 +334,33 @@ PeakMeter::meter_level(uint32_t n, MeterType type) { case MeterIEC2BBC: case MeterIEC2EBU: { - const int n_midi = current_meters.n_midi(); - if ((n - n_midi) < _iec2meter.size() && (n - n_midi) >= 0) { + const uint32_t n_midi = current_meters.n_midi(); + if (CHECKSIZE(_iec2meter)) { return accurate_coefficient_to_dB (_iec2meter[n - n_midi]->read()); } } break; case MeterVU: { - const int n_midi = current_meters.n_midi(); - if ((n - n_midi) < _vumeter.size() && (n - n_midi) >= 0) { + const uint32_t n_midi = current_meters.n_midi(); + if (CHECKSIZE(_vumeter)) { return accurate_coefficient_to_dB (_vumeter[n - n_midi]->read()); } } break; case MeterPeak: - return peak_power(n); - case MeterMaxSignal: - if (n < _max_peak_signal.size()) { - return _max_peak_signal[n]; + case MeterPeak0dB: + if (n < _peak_power.size()) { + return _peak_power[n]; } break; + case MeterMaxSignal: + assert(0); + break; default: case MeterMaxPeak: - if (n < _max_peak_power.size()) { - return _max_peak_power[n]; + if (n < _max_peak_signal.size()) { + return accurate_coefficient_to_dB(_max_peak_signal[n]); } break; } @@ -390,7 +376,7 @@ PeakMeter::set_type(MeterType t) _meter_type = t; - if (t & (MeterKrms | MeterK20 | MeterK14)) { + if (t & (MeterKrms | MeterK20 | MeterK14 | MeterK12)) { const size_t n_audio = current_meters.n_audio(); for (size_t n = 0; n < n_audio; ++n) { _kmeter[n]->reset();