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@ -42,6 +42,7 @@ CMiniDexed::CMiniDexed (CConfig *pConfig, CInterruptSystem *pInterrupt, |
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m_PCKeyboard (this, pConfig, &m_UI), |
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m_PCKeyboard (this, pConfig, &m_UI), |
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m_SerialMIDI (this, pInterrupt, pConfig, &m_UI), |
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m_SerialMIDI (this, pInterrupt, pConfig, &m_UI), |
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m_bUseSerial (false), |
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m_bUseSerial (false), |
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m_bQuadDAC8Chan (false), |
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m_pSoundDevice (0), |
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m_pSoundDevice (0), |
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m_bChannelsSwapped (pConfig->GetChannelsSwapped ()), |
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m_bChannelsSwapped (pConfig->GetChannelsSwapped ()), |
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#ifdef ARM_ALLOW_MULTI_CORE |
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#ifdef ARM_ALLOW_MULTI_CORE |
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@ -125,10 +126,26 @@ CMiniDexed::CMiniDexed (CConfig *pConfig, CInterruptSystem *pInterrupt, |
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if (strcmp (pDeviceName, "i2s") == 0) |
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if (strcmp (pDeviceName, "i2s") == 0) |
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{ |
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{ |
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LOGNOTE ("I2S mode"); |
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LOGNOTE ("I2S mode"); |
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#if RASPPI==5 |
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// Quad DAC 8-channel mono only an option for RPI 5
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m_bQuadDAC8Chan = pConfig->GetQuadDAC8Chan (); |
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#endif |
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if (m_bQuadDAC8Chan) { |
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LOGNOTE ("Configured for Quad DAC 8-channel Mono audio"); |
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m_pSoundDevice = new CI2SSoundBaseDevice (pInterrupt, pConfig->GetSampleRate (), |
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pConfig->GetChunkSize (), false, |
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pI2CMaster, pConfig->GetDACI2CAddress (), |
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CI2SSoundBaseDevice::DeviceModeTXOnly, |
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8); // 8 channels - L+R x4 across 4 I2S lanes
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} |
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else |
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{ |
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m_pSoundDevice = new CI2SSoundBaseDevice (pInterrupt, pConfig->GetSampleRate (), |
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m_pSoundDevice = new CI2SSoundBaseDevice (pInterrupt, pConfig->GetSampleRate (), |
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pConfig->GetChunkSize (), false, |
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pConfig->GetChunkSize (), false, |
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pI2CMaster, pConfig->GetDACI2CAddress ()); |
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pI2CMaster, pConfig->GetDACI2CAddress (), |
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CI2SSoundBaseDevice::DeviceModeTXOnly, |
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2); // 2 channels - L+R
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} |
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} |
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} |
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else if (strcmp (pDeviceName, "hdmi") == 0) |
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else if (strcmp (pDeviceName, "hdmi") == 0) |
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{ |
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{ |
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@ -251,18 +268,30 @@ bool CMiniDexed::Initialize (void) |
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} |
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} |
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// setup and start the sound device
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// setup and start the sound device
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if (!m_pSoundDevice->AllocateQueueFrames (m_pConfig->GetChunkSize ())) |
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int Channels = 1; // 16-bit Mono
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#ifdef ARM_ALLOW_MULTI_CORE |
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if (m_bQuadDAC8Chan) |
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{ |
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Channels = 8; // 16-bit 8-channel mono
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} |
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else |
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{ |
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Channels = 2; // 16-bit Stereo
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} |
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#endif |
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// Need 2 x ChunkSize / Channel queue frames as the audio driver uses
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// two DMA channels each of ChunkSize and one single single frame
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// contains a sample for each of all the channels.
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//
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// See discussion here: https://github.com/rsta2/circle/discussions/453
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if (!m_pSoundDevice->AllocateQueueFrames (2 * m_pConfig->GetChunkSize () / Channels)) |
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{ |
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{ |
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LOGERR ("Cannot allocate sound queue"); |
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LOGERR ("Cannot allocate sound queue"); |
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return false; |
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return false; |
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} |
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} |
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#ifndef ARM_ALLOW_MULTI_CORE |
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m_pSoundDevice->SetWriteFormat (SoundFormatSigned16, Channels); |
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m_pSoundDevice->SetWriteFormat (SoundFormatSigned16, 1); // 16-bit Mono
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#else |
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m_pSoundDevice->SetWriteFormat (SoundFormatSigned16, 2); // 16-bit Stereo
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#endif |
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m_nQueueSizeFrames = m_pSoundDevice->GetQueueSizeFrames (); |
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m_nQueueSizeFrames = m_pSoundDevice->GetQueueSizeFrames (); |
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@ -1128,6 +1157,48 @@ void CMiniDexed::ProcessSound (void) |
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assert (CConfig::ToneGenerators == 8); |
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assert (CConfig::ToneGenerators == 8); |
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if (m_bQuadDAC8Chan) { |
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// No mixing is performed by MiniDexed, sound is output in 8 channels.
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// Note: one TG per audio channel; output=mono; no processing.
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const int Channels = 8; // One TG per channel
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float32_t tmp_float[nFrames*Channels]; |
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int16_t tmp_int[nFrames*Channels]; |
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if(nMasterVolume > 0.0) |
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{ |
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// Convert dual float array (8 chan) to single int16 array (8 chan)
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for(uint16_t i=0; i<nFrames;i++) |
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{ |
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// TGs will alternate on L/R channels for each output
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// reading directly from the TG OutputLevel buffer with
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// no additional processing.
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for (uint8_t tg = 0; tg < Channels; tg++) |
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{ |
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if(nMasterVolume >0.0 && nMasterVolume <1.0) |
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{ |
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tmp_float[(i*Channels)+tg]=m_OutputLevel[tg][i] * nMasterVolume; |
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} |
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else if(nMasterVolume == 1.0) |
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{ |
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tmp_float[(i*Channels)+tg]=m_OutputLevel[tg][i]; |
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} |
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} |
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} |
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arm_float_to_q15(tmp_float,tmp_int,nFrames*Channels); |
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} |
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else |
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{ |
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arm_fill_q15(0, tmp_int, nFrames*Channels); |
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} |
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if (m_pSoundDevice->Write (tmp_int, sizeof(tmp_int)) != (int) sizeof(tmp_int)) |
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{ |
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LOGERR ("Sound data dropped"); |
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} |
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} |
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else |
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{ |
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// Mix everything down to stereo
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uint8_t indexL=0, indexR=1; |
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uint8_t indexL=0, indexR=1; |
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// BEGIN TG mixing
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// BEGIN TG mixing
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@ -1201,12 +1272,15 @@ void CMiniDexed::ProcessSound (void) |
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arm_float_to_q15(tmp_float,tmp_int,nFrames*2); |
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arm_float_to_q15(tmp_float,tmp_int,nFrames*2); |
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} |
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} |
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else |
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else |
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{ |
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arm_fill_q15(0, tmp_int, nFrames * 2); |
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arm_fill_q15(0, tmp_int, nFrames * 2); |
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} |
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if (m_pSoundDevice->Write (tmp_int, sizeof(tmp_int)) != (int) sizeof(tmp_int)) |
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if (m_pSoundDevice->Write (tmp_int, sizeof(tmp_int)) != (int) sizeof(tmp_int)) |
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{ |
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{ |
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LOGERR ("Sound data dropped"); |
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LOGERR ("Sound data dropped"); |
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} |
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} |
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} // End of Stereo mixing
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if (m_bProfileEnabled) |
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if (m_bProfileEnabled) |
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{ |
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{ |
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