/* * Copyright (C) 2015 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include "portaudio_io.h" #define INTERLEAVED_INPUT #define INTERLEAVED_OUTPUT using namespace ARDOUR; PortAudioIO::PortAudioIO () : _state (-1) , _initialized (false) , _capture_channels (0) , _playback_channels (0) , _stream (0) , _input_buffer (0) , _output_buffer (0) , _cur_sample_rate (0) , _cur_input_latency (0) , _cur_output_latency (0) { } PortAudioIO::~PortAudioIO () { if (_state == 0) { pcm_stop(); } if (_initialized) { Pa_Terminate(); } for (std::map::const_iterator i = _devices.begin (); i != _devices.end(); ++i) { delete i->second; } _devices.clear(); free (_input_buffer); _input_buffer = NULL; free (_output_buffer); _output_buffer = NULL; } int PortAudioIO::available_sample_rates(int device_id, std::vector& sampleRates) { static const float ardourRates[] = { 8000.0, 22050.0, 24000.0, 44100.0, 48000.0, 88200.0, 96000.0, 176400.0, 192000.0}; assert(_initialized); // TODO use separate int device_input, int device_output ?! if (device_id == -1) { device_id = Pa_GetDefaultInputDevice(); } #ifndef NDEBUG printf("PortAudio: Querying Samplerates for device %d\n", device_id); #endif sampleRates.clear(); const PaDeviceInfo* nfo = Pa_GetDeviceInfo(device_id); PaStreamParameters inputParam; PaStreamParameters outputParam; inputParam.device = device_id; inputParam.channelCount = nfo->maxInputChannels; inputParam.sampleFormat = paFloat32; inputParam.suggestedLatency = 0; inputParam.hostApiSpecificStreamInfo = 0; outputParam.device = device_id; outputParam.channelCount = nfo->maxOutputChannels; outputParam.sampleFormat = paFloat32; outputParam.suggestedLatency = 0; outputParam.hostApiSpecificStreamInfo = 0; for (uint32_t i = 0; i < sizeof(ardourRates)/sizeof(float); ++i) { if (paFormatIsSupported == Pa_IsFormatSupported( nfo->maxInputChannels > 0 ? &inputParam : NULL, nfo->maxOutputChannels > 0 ? &outputParam : NULL, ardourRates[i])) { sampleRates.push_back (ardourRates[i]); } } if (sampleRates.empty()) { sampleRates.push_back (48000.0); } return 0; } int PortAudioIO::available_buffer_sizes(int device_id, std::vector& bufferSizes) { // TODO static const uint32_t ardourSizes[] = { 64, 128, 256, 512, 1024, 2048, 4096 }; for(uint32_t i = 0; i < sizeof(ardourSizes)/sizeof(uint32_t); ++i) { bufferSizes.push_back (ardourSizes[i]); } return 0; } void PortAudioIO::device_list (std::map &devices) const { devices.clear(); for (std::map::const_iterator i = _devices.begin (); i != _devices.end(); ++i) { devices.insert (std::pair (i->first, i->second->name)); } } void PortAudioIO::discover() { for (std::map::const_iterator i = _devices.begin (); i != _devices.end(); ++i) { delete i->second; } _devices.clear(); PaError err = paNoError; if (!_initialized) { err = Pa_Initialize(); } if (err != paNoError) { return; } _initialized = true; { const PaDeviceInfo* nfo_i = Pa_GetDeviceInfo(Pa_GetDefaultInputDevice()); const PaDeviceInfo* nfo_o = Pa_GetDeviceInfo(Pa_GetDefaultOutputDevice()); if (nfo_i && nfo_o) { _devices.insert (std::pair (-1, new paDevice("Default", nfo_i->maxInputChannels, nfo_o->maxOutputChannels ))); } } int n_devices = Pa_GetDeviceCount(); #ifndef NDEBUG printf("PortAudio %d devices found:\n", n_devices); #endif for (int i = 0 ; i < n_devices; ++i) { const PaDeviceInfo* nfo = Pa_GetDeviceInfo(i); if (!nfo) continue; #ifndef NDEBUG printf(" (%d) '%s' in: %d (lat: %.1f .. %.1f) out: %d (lat: %.1f .. %.1f) sr:%.2f\n", i, nfo->name, nfo->maxInputChannels, nfo->defaultLowInputLatency * 1e3, nfo->defaultHighInputLatency * 1e3, nfo->maxOutputChannels, nfo->defaultLowOutputLatency * 1e3, nfo->defaultHighOutputLatency * 1e3, nfo->defaultSampleRate); #endif if ( nfo->maxInputChannels == 0 && nfo->maxOutputChannels == 0) { continue; } _devices.insert (std::pair (i, new paDevice( nfo->name, nfo->maxInputChannels, nfo->maxOutputChannels ))); } } void PortAudioIO::pcm_stop () { if (_stream) { Pa_CloseStream (_stream); } _stream = NULL; _capture_channels = 0; _playback_channels = 0; _cur_sample_rate = 0; _cur_input_latency = 0; _cur_output_latency = 0; free (_input_buffer); _input_buffer = NULL; free (_output_buffer); _output_buffer = NULL; _state = -1; } int PortAudioIO::pcm_start() { PaError err = Pa_StartStream (_stream); if (err != paNoError) { _state = -1; return -1; } return 0; } #ifdef __APPLE__ static uint32_t lower_power_of_two (uint32_t v) { v--; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; v |= v >> 16; v++; return v >> 1; } #endif int PortAudioIO::pcm_setup ( int device_input, int device_output, double sample_rate, uint32_t samples_per_period) { _state = -2; // TODO error reporting sans fprintf() PaError err = paNoError; const PaDeviceInfo *nfo_in; const PaDeviceInfo *nfo_out; const PaStreamInfo *nfo_s; if (!_initialized) { err = Pa_Initialize(); } if (err != paNoError) { fprintf(stderr, "PortAudio Initialization Failed\n"); goto error; } _initialized = true; if (device_input == -1) { device_input = Pa_GetDefaultInputDevice(); } if (device_output == -1) { device_output = Pa_GetDefaultOutputDevice(); } _capture_channels = 0; _playback_channels = 0; _cur_sample_rate = 0; _cur_input_latency = 0; _cur_output_latency = 0; #ifndef NDEBUG printf("PortAudio Device IDs: i:%d o:%d\n", device_input, device_output); #endif nfo_in = Pa_GetDeviceInfo(device_input); nfo_out = Pa_GetDeviceInfo(device_output); if (!nfo_in && ! nfo_out) { fprintf(stderr, "PortAudio Cannot Query Device Info\n"); goto error; } if (nfo_in) { _capture_channels = nfo_in->maxInputChannels; } if (nfo_out) { _playback_channels = nfo_out->maxOutputChannels; } if(_capture_channels == 0 && _playback_channels == 0) { fprintf(stderr, "PortAudio no Input and no output channels.\n"); goto error; } #ifdef __APPLE__ // pa_mac_core_blocking.c pa_stable_v19_20140130 // BUG: ringbuffer alloc requires power-of-two chn count. if ((_capture_channels & (_capture_channels - 1)) != 0) { printf("Adjusted capture channes to power of two (portaudio rb bug)\n"); _capture_channels = lower_power_of_two (_capture_channels); } if ((_playback_channels & (_playback_channels - 1)) != 0) { printf("Adjusted capture channes to power of two (portaudio rb bug)\n"); _playback_channels = lower_power_of_two (_playback_channels); } #endif #ifndef NDEBUG printf("PortAudio Channels: in:%d out:%d\n", _capture_channels, _playback_channels); #endif PaStreamParameters inputParam; PaStreamParameters outputParam; if (nfo_in) { inputParam.device = device_input; inputParam.channelCount = _capture_channels; #ifdef INTERLEAVED_INPUT inputParam.sampleFormat = paFloat32; #else inputParam.sampleFormat = paFloat32 | paNonInterleaved; #endif inputParam.suggestedLatency = nfo_in->defaultLowInputLatency; inputParam.hostApiSpecificStreamInfo = NULL; } if (nfo_out) { outputParam.device = device_output; outputParam.channelCount = _playback_channels; #ifdef INTERLEAVED_OUTPUT outputParam.sampleFormat = paFloat32; #else outputParam.sampleFormat = paFloat32 | paNonInterleaved; #endif outputParam.suggestedLatency = nfo_out->defaultLowOutputLatency; outputParam.hostApiSpecificStreamInfo = NULL; } // XXX re-consider using callback API, testing needed. err = Pa_OpenStream ( &_stream, _capture_channels > 0 ? &inputParam: NULL, _playback_channels > 0 ? &outputParam: NULL, sample_rate, samples_per_period, paClipOff | paDitherOff, NULL, NULL); if (err != paNoError) { fprintf(stderr, "PortAudio failed to start stream.\n"); goto error; } nfo_s = Pa_GetStreamInfo (_stream); if (!nfo_s) { fprintf(stderr, "PortAudio failed to query stream information.\n"); pcm_stop(); goto error; } _cur_sample_rate = nfo_s->sampleRate; _cur_input_latency = nfo_s->inputLatency * _cur_sample_rate; _cur_output_latency = nfo_s->outputLatency * _cur_sample_rate; #ifndef NDEBUG printf("PA Sample Rate %.1f SPS\n", _cur_sample_rate); printf("PA Input Latency %.1fms %d spl\n", 1e3 * nfo_s->inputLatency, _cur_input_latency); printf("PA Output Latency %.1fms %d spl\n", 1e3 * nfo_s->outputLatency, _cur_output_latency); #endif _state = 0; if (_capture_channels > 0) { _input_buffer = (float*) malloc (samples_per_period * _capture_channels * sizeof(float)); if (!_input_buffer) { fprintf(stderr, "PortAudio failed to allocate input buffer.\n"); pcm_stop(); goto error; } } if (_playback_channels > 0) { _output_buffer = (float*) calloc (samples_per_period * _playback_channels, sizeof(float)); if (!_output_buffer) { fprintf(stderr, "PortAudio failed to allocate output buffer.\n"); pcm_stop(); goto error; } } return 0; error: _capture_channels = 0; _playback_channels = 0; free (_input_buffer); _input_buffer = NULL; free (_output_buffer); _output_buffer = NULL; Pa_Terminate(); return -1; } int PortAudioIO::next_cycle (uint32_t n_samples) { bool xrun = false; PaError err; err = Pa_IsStreamActive (_stream); if (err != 1) { // 0: inactive / aborted // < 0: error return -1; } // TODO, check drift.. process part with larger capacity first. // Pa_GetStreamReadAvailable(_stream) < Pa_GetStreamWriteAvailable(_stream) if (_playback_channels > 0) { err = Pa_WriteStream (_stream, _output_buffer, n_samples); if (err) xrun = true; } if (_capture_channels > 0) { err = Pa_ReadStream (_stream, _input_buffer, n_samples); if (err) { memset (_input_buffer, 0, sizeof(float) * n_samples * _capture_channels); xrun = true; } } return xrun ? 1 : 0; } #ifdef INTERLEAVED_INPUT int PortAudioIO::get_capture_channel (uint32_t chn, float *input, uint32_t n_samples) { assert(chn < _capture_channels); const uint32_t stride = _capture_channels; float *ptr = _input_buffer + chn; while (n_samples-- > 0) { *input++ = *ptr; ptr += stride; } return 0; } #else int PortAudioIO::get_capture_channel (uint32_t chn, float *input, uint32_t n_samples) { assert(chn < _capture_channels); memcpy((void*)input, &(_input_buffer[chn * n_samples]), n_samples * sizeof(float)); } #endif #ifdef INTERLEAVED_OUTPUT int PortAudioIO::set_playback_channel (uint32_t chn, const float *output, uint32_t n_samples) { assert(chn < _playback_channels); const uint32_t stride = _playback_channels; float *ptr = _output_buffer + chn; while (n_samples-- > 0) { *ptr = *output++; ptr += stride; } return 0; } #else int PortAudioIO::set_playback_channel (uint32_t chn, const float *output, uint32_t n_samples) { assert(chn < _playback_channels); memcpy((void*)&(_output_buffer[chn * n_samples]), (void*)output, n_samples * sizeof(float)); return 0; } #endif