+ // Upsample 4x to find interpolated peak.
+ peak_resampler.inp_data = const_cast<float *>(samples.data());
+ peak_resampler.inp_count = samples.size() / 2;
+
+ vector<float> interpolated_samples;
+ interpolated_samples.resize(samples.size());
+ {
+ lock_guard<mutex> lock(audio_measure_mutex);
+
+ while (peak_resampler.inp_count > 0) { // About four iterations.
+ peak_resampler.out_data = &interpolated_samples[0];
+ peak_resampler.out_count = interpolated_samples.size() / 2;
+ peak_resampler.process();
+ size_t out_stereo_samples = interpolated_samples.size() / 2 - peak_resampler.out_count;
+ peak = max<float>(peak, find_peak(interpolated_samples.data(), out_stereo_samples * 2));
+ peak_resampler.out_data = nullptr;
+ }
+ }
+
+ // Find R128 levels and L/R correlation.
+ vector<float> left, right;
+ deinterleave_samples(samples, &left, &right);
+ float *ptrs[] = { left.data(), right.data() };
+ {
+ lock_guard<mutex> lock(audio_measure_mutex);
+ r128.process(left.size(), ptrs);
+ correlation.process_samples(samples);
+ }
+
+ send_audio_level_callback();
+}
+
+void AudioMixer::reset_meters()
+{
+ lock_guard<mutex> lock(audio_measure_mutex);
+ peak_resampler.reset();
+ peak = 0.0f;
+ r128.reset();
+ r128.integr_start();
+ correlation.reset();
+}
+
+void AudioMixer::send_audio_level_callback()
+{
+ if (audio_level_callback == nullptr) {
+ return;
+ }
+
+ lock_guard<mutex> lock(audio_measure_mutex);
+ double loudness_s = r128.loudness_S();
+ double loudness_i = r128.integrated();
+ double loudness_range_low = r128.range_min();
+ double loudness_range_high = r128.range_max();
+
+ metric_audio_loudness_short_lufs = loudness_s;
+ metric_audio_loudness_integrated_lufs = loudness_i;
+ metric_audio_loudness_range_low_lufs = loudness_range_low;
+ metric_audio_loudness_range_high_lufs = loudness_range_high;
+ metric_audio_peak_dbfs = to_db(peak);
+ metric_audio_final_makeup_gain_db = to_db(final_makeup_gain);
+ metric_audio_correlation = correlation.get_correlation();
+
+ vector<BusLevel> bus_levels;
+ bus_levels.resize(input_mapping.buses.size());
+ {
+ lock_guard<mutex> lock(compressor_mutex);
+ for (unsigned bus_index = 0; bus_index < bus_levels.size(); ++bus_index) {
+ BusLevel &levels = bus_levels[bus_index];
+ BusMetrics &metrics = bus_metrics[bus_index];
+
+ levels.current_level_dbfs[0] = metrics.current_level_dbfs[0] = to_db(peak_history[bus_index][0].current_level);
+ levels.current_level_dbfs[1] = metrics.current_level_dbfs[1] = to_db(peak_history[bus_index][1].current_level);
+ levels.peak_level_dbfs[0] = metrics.peak_level_dbfs[0] = to_db(peak_history[bus_index][0].current_peak);
+ levels.peak_level_dbfs[1] = metrics.peak_level_dbfs[1] = to_db(peak_history[bus_index][1].current_peak);
+ levels.historic_peak_dbfs = metrics.historic_peak_dbfs = to_db(
+ max(peak_history[bus_index][0].historic_peak,
+ peak_history[bus_index][1].historic_peak));
+ levels.gain_staging_db = metrics.gain_staging_db = gain_staging_db[bus_index];
+ if (compressor_enabled[bus_index]) {
+ levels.compressor_attenuation_db = metrics.compressor_attenuation_db = -to_db(compressor[bus_index]->get_attenuation());
+ } else {
+ levels.compressor_attenuation_db = 0.0;
+ metrics.compressor_attenuation_db = 0.0 / 0.0;
+ }
+ }
+ }
+
+ audio_level_callback(loudness_s, to_db(peak), bus_levels,
+ loudness_i, loudness_range_low, loudness_range_high,
+ to_db(final_makeup_gain),
+ correlation.get_correlation());
+}
+
+map<DeviceSpec, DeviceInfo> AudioMixer::get_devices()
+{
+ lock_guard<timed_mutex> lock(audio_mutex);
+
+ map<DeviceSpec, DeviceInfo> devices;
+ for (unsigned card_index = 0; card_index < num_capture_cards; ++card_index) {
+ const DeviceSpec spec{ InputSourceType::CAPTURE_CARD, card_index };
+ const AudioDevice *device = &video_cards[card_index];
+ DeviceInfo info;
+ info.display_name = device->display_name;
+ info.num_channels = 8;
+ devices.insert(make_pair(spec, info));
+ }
+ vector<ALSAPool::Device> available_alsa_devices = alsa_pool.get_devices();
+ for (unsigned card_index = 0; card_index < available_alsa_devices.size(); ++card_index) {
+ const DeviceSpec spec{ InputSourceType::ALSA_INPUT, card_index };
+ const ALSAPool::Device &device = available_alsa_devices[card_index];
+ DeviceInfo info;
+ info.display_name = device.display_name();
+ info.num_channels = device.num_channels;
+ info.alsa_name = device.name;
+ info.alsa_info = device.info;
+ info.alsa_address = device.address;
+ devices.insert(make_pair(spec, info));
+ }
+ for (unsigned card_index = 0; card_index < num_ffmpeg_inputs; ++card_index) {
+ const DeviceSpec spec{ InputSourceType::FFMPEG_VIDEO_INPUT, card_index };
+ const AudioDevice *device = &ffmpeg_inputs[card_index];
+ DeviceInfo info;
+ info.display_name = device->display_name;
+ info.num_channels = 2;
+ devices.insert(make_pair(spec, info));
+ }
+ return devices;
+}
+
+void AudioMixer::set_display_name(DeviceSpec device_spec, const string &name)
+{
+ AudioDevice *device = find_audio_device(device_spec);
+
+ lock_guard<timed_mutex> lock(audio_mutex);
+ device->display_name = name;
+}
+
+void AudioMixer::serialize_device(DeviceSpec device_spec, DeviceSpecProto *device_spec_proto)
+{
+ lock_guard<timed_mutex> lock(audio_mutex);
+ switch (device_spec.type) {
+ case InputSourceType::SILENCE:
+ device_spec_proto->set_type(DeviceSpecProto::SILENCE);
+ break;
+ case InputSourceType::CAPTURE_CARD:
+ device_spec_proto->set_type(DeviceSpecProto::CAPTURE_CARD);
+ device_spec_proto->set_index(device_spec.index);
+ device_spec_proto->set_display_name(video_cards[device_spec.index].display_name);
+ break;
+ case InputSourceType::ALSA_INPUT:
+ alsa_pool.serialize_device(device_spec.index, device_spec_proto);
+ break;
+ case InputSourceType::FFMPEG_VIDEO_INPUT:
+ device_spec_proto->set_type(DeviceSpecProto::FFMPEG_VIDEO_INPUT);
+ device_spec_proto->set_index(device_spec.index);
+ device_spec_proto->set_display_name(ffmpeg_inputs[device_spec.index].display_name);
+ break;
+ }
+}
+
+void AudioMixer::set_simple_input(unsigned card_index)
+{
+ assert(card_index < num_capture_cards + num_ffmpeg_inputs);
+ InputMapping new_input_mapping;
+ InputMapping::Bus input;
+ input.name = "Main";
+ if (card_index >= num_capture_cards) {
+ input.device = DeviceSpec{InputSourceType::FFMPEG_VIDEO_INPUT, card_index - num_capture_cards};
+ } else {
+ input.device = DeviceSpec{InputSourceType::CAPTURE_CARD, card_index};
+ }
+ input.source_channel[0] = 0;
+ input.source_channel[1] = 1;
+
+ new_input_mapping.buses.push_back(input);
+
+ lock_guard<timed_mutex> lock(audio_mutex);
+ current_mapping_mode = MappingMode::SIMPLE;
+ set_input_mapping_lock_held(new_input_mapping);
+ fader_volume_db[0] = 0.0f;
+}
+
+unsigned AudioMixer::get_simple_input() const
+{
+ lock_guard<timed_mutex> lock(audio_mutex);
+ if (input_mapping.buses.size() == 1 &&
+ input_mapping.buses[0].device.type == InputSourceType::CAPTURE_CARD &&
+ input_mapping.buses[0].source_channel[0] == 0 &&
+ input_mapping.buses[0].source_channel[1] == 1) {
+ return input_mapping.buses[0].device.index;
+ } else if (input_mapping.buses.size() == 1 &&
+ input_mapping.buses[0].device.type == InputSourceType::FFMPEG_VIDEO_INPUT &&
+ input_mapping.buses[0].source_channel[0] == 0 &&
+ input_mapping.buses[0].source_channel[1] == 1) {
+ return input_mapping.buses[0].device.index + num_capture_cards;
+ } else {
+ return numeric_limits<unsigned>::max();
+ }