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libcm is a C development framework with an emphasis on audio signal processing applications.
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libcm/src/cmApBuf.h

cmApBuf.h 11KB
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  1. //( {file_desc: "Thread safe audio buffer class." kw:[rt audio]}

  2. //

  3. // This file defines an audio buffer class which handles

  4. // buffering incoming (recording) and outgoing (playback)

  5. // samples in a thread-safe manner. 

  6. //

  7. // Usage example and testing code:

  8. // See cmApBufTest() and cmAudioSysTest().

  9. // \snippet cmApBuf.c cmApBufExample

  10. //

  11. // Notes on channel flags:

  12. // Disabled channels:  kChFl is cleared

  13. //   cmApBufGet()     

  14. //      in  - return NULL buffer pointers  

  15. //      out - return NULL buffer points

  16. //

  17. //   cmApBufUpdate()

  18. //      in  - incoming samples are set to 0. 

  19. //      out - outgoing samples are set to 0.

  20. //

  21. // Muted channels: kMuteFl is set 

  22. //   cmApBufUpdate()

  23. //      in  - incoming samples are set to 0. 

  24. //      out - outgoing samples are set to 0.

  25. //

  26. // Tone channels: kToneFl is set 

  27. //   cmApBufUpdate()

  28. //      in  - incoming samples are filled with a 1k sine tone

  29. //      out - outgoing samples are filled with a 1k sine tone

  30. //)

  31. 

  32. #ifndef cmApBuf_h

  33. #define cmApBuf_h

  34. 

  35. #ifdef __cplusplus

  36. extern "C" {

  37. #endif

  38.   

  39.   //(

  40.   typedef cmRC_t cmAbRC_t;  //< Result code type

  41.   

  42.   enum

  43.   {

  44.     kOkAbRC = 0

  45.   };

  46. 

  47.   // Allocate and initialize an audio buffer.

  48.   // devCnt - count of devices this buffer will handle.

  49.   // meterMs - length of the meter buffers in milliseconds (automatically limit to the range:10 to 1000)

  50.   cmAbRC_t cmApBufInitialize( unsigned devCnt, unsigned meterMs );

  51. 

  52.   // Deallocate and release any resource held by an audio buffer allocated via cmApBufInitialize().

  53.   cmAbRC_t cmApBufFinalize();

  54. 

  55.   // Configure a buffer for a given device.  

  56.   cmAbRC_t cmApBufSetup( 

  57.     unsigned devIdx,              //< device to setup

  58.     double   srate,               //< device sample rate (only required for synthesizing the correct test-tone frequency)

  59.     unsigned dspFrameCnt,         //< dspFrameCnt - count of samples in channel buffers returned via cmApBufGet() 

  60.     unsigned cycleCnt,            //< number of audio port cycles to store 

  61.     unsigned inChCnt,             //< input channel count on this device

  62.     unsigned inFramesPerCycle,    //< maximum number of incoming sample frames on an audio port cycle

  63.     unsigned outChCnt,            //< output channel count on this device

  64.     unsigned outFramesPerCycle,   //< maximum number of outgoing sample frames in an audio port cycle

  65.     int      srateMult );         //< sample rate cvt (positive for upsample, negative for downsample)

  66. 

  67.   // Prime the buffer with 'audioCycleCnt' * outFramesPerCycle samples ready to be played

  68.   cmAbRC_t cmApBufPrimeOutput( unsigned devIdx, unsigned audioCycleCnt );

  69. 

  70.   // Notify the audio buffer that a device is being enabled or disabled.

  71.   void     cmApBufOnPortEnable( unsigned devIdx, bool enabelFl );

  72. 

  73.   // This function is called asynchronously by the audio device driver to transfer incoming samples to the

  74.   // the buffer and to send outgoing samples to the DAC. This function is 

  75.   // intended to be called from the audio port callback function (\see cmApCallbackPtr_t).

  76.   // This function is thread-safe under the condition where the audio device uses

  77.   // different threads for input and output.

  78.   //

  79.   // Enable Flag: 

  80.   // Input: If an input channel is disabled then the incoming samples are replaced with zeros.

  81.   // Output: If an output channel is disabled then the packet samples are set to zeros.

  82.   //

  83.   // Tone Flag:

  84.   // Input: If the tone flag is set on an input channel then the incoming samples are set to a sine tone.

  85.   // Output: If the tone flag is set on an output channel then the packet samples are set to a sine tone.

  86.   //

  87.   // The enable flag has higher precedence than the tone flag therefore disabled channels

  88.   // will be set to zero even if the tone flag is set.

  89.   cmAbRC_t cmApBufUpdate(

  90.     cmApAudioPacket_t* inPktArray,  //< full audio packets from incoming audio (from ADC)

  91.     unsigned           inPktCnt,    //< count of incoming audio packets

  92.     cmApAudioPacket_t* outPktArray, //< empty audio packet for outgoing audio (to DAC)  

  93.     unsigned           outPktCnt    //< count of outgoing audio packets

  94.                          );

  95.   // Channel flags

  96.   enum

  97.   {

  98.     kInApFl     = 0x01,  //< Identify an input channel

  99.     kOutApFl    = 0x02,  //< Identify an output channel

  100.     kEnableApFl = 0x04,  //< Set to enable a channel, Clear to disable. 

  101. 

  102.     kChApFl     = 0x08,  //< Used to enable/disable a channel

  103.     kMuteApFl   = 0x10,  //< Mute this channel

  104.     kToneApFl   = 0x20,  //< Generate a tone on this channel

  105.     kMeterApFl  = 0x40,  //< Turn meter's on/off

  106.     kPassApFl   = 0x80   //< Pass input channels throught to the output. Must use cmApBufGetIO() to implement this functionality.

  107.   

  108.   };

  109. 

  110.   // Return the meter window period as set by cmApBufInitialize()

  111.   unsigned cmApBufMeterMs();

  112.   

  113.   // Set the meter update period. THis function limits the value to between 10 and 1000.

  114.   void     cmApBufSetMeterMs( unsigned meterMs );

  115. 

  116.   // Returns the channel count set via cmApBufSetup().

  117.   unsigned cmApBufChannelCount( unsigned devIdx, unsigned flags );

  118. 

  119.   // Set chIdx to -1 to enable all channels on this device.

  120.   // Set flags to {kInApFl | kOutApFl} | {kChApFl | kToneApFl | kMeterFl} | { kEnableApFl=on | 0=off }  

  121.   void cmApBufSetFlag( unsigned devIdx, unsigned chIdx, unsigned flags );

  122.   

  123.   // Return true if the the flags is set.

  124.   bool cmApBufIsFlag( unsigned devIdx, unsigned chIdx, unsigned flags );

  125. 

  126.   // Set chIdx to -1 to enable all channels on this device.

  127.   void  cmApBufEnableChannel(   unsigned devIdx, unsigned chIdx, unsigned flags );

  128. 

  129.   // Returns true if an input/output channel is enabled on the specified device.

  130.   bool  cmApBufIsChannelEnabled(unsigned devIdx, unsigned chIdx, unsigned flags );

  131. 

  132.   // Set the state of the tone generator on the specified channel.

  133.   // Set chIdx to -1 to apply the change to all channels on this device.

  134.   // Set flags to {kInApFl | kOutApFl} | { kEnableApFl=on | 0=off }

  135.   void  cmApBufEnableTone(   unsigned devIdx, unsigned chIdx, unsigned flags );

  136. 

  137.   // Returns true if an input/output tone is enabled on the specified device.

  138.   bool  cmApBufIsToneEnabled(unsigned devIdx, unsigned chIdx, unsigned flags );

  139. 

  140.   // Mute a specified channel.

  141.   // Set chIdx to -1 to apply the change to all channels on this device.

  142.   // Set flags to {kInApFl | kOutApFl} | { kEnableApFl=on | 0=off }

  143.   void  cmApBufEnableMute(   unsigned devIdx, unsigned chIdx, unsigned flags );

  144. 

  145.   // Returns true if an input/output channel is muted on the specified device.

  146.   bool  cmApBufIsMuteEnabled(unsigned devIdx, unsigned chIdx, unsigned flags );

  147. 

  148.   // Set the specified channel to pass through.

  149.   // Set chIdx to -1 to apply the change to all channels on this device.

  150.   // Set flags to {kInApFl | kOutApFl} | { kEnableApFl=on | 0=off }

  151.   void  cmApBufEnablePass(   unsigned devIdx, unsigned chIdx, unsigned flags );

  152. 

  153.   // Returns true if pass through is enabled on the specified channel.

  154.   bool  cmApBufIsPassEnabled(unsigned devIdx, unsigned chIdx, unsigned flags );

  155. 

  156.   // Turn meter data collection on and off.

  157.   // Set chIdx to -1 to apply the change to all channels on this device.

  158.   // Set flags to {kInApFl | kOutApFl} | { kEnableApFl=on | 0=off }

  159.   void  cmApBufEnableMeter(   unsigned devIdx, unsigned chIdx, unsigned flags );

  160. 

  161.   // Returns true if an input/output tone is enabled on the specified device.

  162.   bool  cmApBufIsMeterEnabled(unsigned devIdx, unsigned chIdx, unsigned flags );

  163. 

  164.   // Return the meter value for the requested channel.

  165.   // Set flags to kInApFl | kOutApFl.

  166.   cmApSample_t cmApBufMeter(unsigned devIdx, unsigned chIdx, unsigned flags );

  167. 

  168.   // Set chIdx to -1 to apply the gain to all channels on the specified device.

  169.   void cmApBufSetGain( unsigned devIdx, unsigned chIdx, unsigned flags, double gain );

  170. 

  171.   // Return the current gain seting for the specified channel.

  172.   double cmApBufGain( unsigned devIdx, unsigned chIdx, unsigned flags ); 

  173. 

  174.   // Get the meter and fault status of the channel input or output channel array of a device.

  175.   // Set 'flags' to { kInApFl | kOutApFl }.

  176.   // The returns value is the count of channels actually written to meterArray.

  177.   // If 'faultCntPtr' is non-NULL then it is set to the faultCnt of the associated devices input or output buffer.

  178.   unsigned cmApBufGetStatus( unsigned devIdx, unsigned flags, double* meterArray, unsigned meterCnt, unsigned* faultCntPtr );

  179. 

  180.   // Do all enabled input/output channels on this device have samples available?

  181.   // 'flags' can be set to either or both kInApFl and kOutApFl

  182.   bool  cmApBufIsDeviceReady( unsigned devIdx, unsigned flags ); 

  183. 

  184.   // This function is called by the application to get full incoming sample buffers and

  185.   // to fill empty outgoing sample buffers.

  186.   // Upon return each element in bufArray[bufChCnt] holds a pointer to a buffer assoicated 

  187.   // with an audio channel or to NULL if the channel is disabled.

  188.   // 'flags' can be set to kInApFl or kOutApFl but not both.

  189.   // The buffers pointed to by bufArray[] each contain 'dspFrameCnt' samples. Where 

  190.   // 'dspFrameCnt' was set in the earlier call to cmApBufSetup() for this device.

  191.   // (see cmApBufInitialize()).

  192.   // Note that this function just returns audio information it does not

  193.   // change any cmApBuf() internal states.

  194.   void cmApBufGet(     unsigned devIdx, unsigned flags, cmApSample_t* bufArray[], unsigned bufChCnt );

  195. 

  196.   // This function replaces calls to cmApBufGet() and implements pass-through and output 

  197.   // buffer zeroing: 

  198.   // 

  199.   // 1) cmApBufGet(in);

  200.   // 2) cmApBufGet(out);

  201.   // 3) Copy through channels marked for 'pass' and set the associated oBufArray[i] channel to NULL.

  202.   // 4) Zero all other enabled output channels.

  203.   //

  204.   // Notes:

  205.   // 1) The oBufArray[] channels that are disabled or marked for pass-through will 

  206.   // be set to NULL.

  207.   // 2) The client is required to use this function to implement pass-through internally.

  208.   // 3) This function just returns audio information it does not

  209.   // change any cmApBuf() internal states.

  210.   // 4) The timestamp pointers are optional.

  211.   void cmApBufGetIO(   unsigned iDevIdx, cmApSample_t* iBufArray[], unsigned iBufChCnt, cmTimeSpec_t* iTimeStampPtr, 

  212.                        unsigned oDevIdx, cmApSample_t* oBufArray[], unsigned oBufChCnt, cmTimeSpec_t* oTimeStampPtr );

  213. 

  214. 

  215.   // The application calls this function each time it completes processing of a bufArray[]

  216.   // returned from cmApBufGet(). 'flags' can be set to either or both kInApFl and kOutApFl.

  217.   // This function should only be called from the client thread.

  218.   void cmApBufAdvance( unsigned devIdx, unsigned flags );

  219. 

  220.     // Copy all available samples incoming samples from an input device to an output device.

  221.   // The source code for this example is a good example of how an application should use cmApBufGet()

  222.   // and cmApBufAdvance().

  223.   void cmApBufInputToOutput( unsigned inDevIdx, unsigned outDevIdx );

  224. 

  225.   // Print the current buffer state.

  226.   void cmApBufReport( cmRpt_t* rpt );

  227. 

  228.   // Run a buffer usage simulation to test the class. cmAudioPortTest.c calls this function.

  229.   void cmApBufTest( cmRpt_t* rpt );

  230. 

  231.   //)

  232. 

  233. 

  234. #ifdef __cplusplus

  235. }

  236. #endif

  237. 

  238. #endif