libcm is a C development framework with an emphasis on audio signal processing applications.
Vous ne pouvez pas sélectionner plus de 25 sujets Les noms de sujets doivent commencer par une lettre ou un nombre, peuvent contenir des tirets ('-') et peuvent comporter jusqu'à 35 caractères.

cmAudioSysMsg.h 5.0KB

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123
  1. #ifndef cmAudioSysMsg_h
  2. #define cmAudioSysMsg_h
  3. #ifdef __cplusplus
  4. extern "C" {
  5. #endif
  6. //( { file_desc:"Constrants and data structures used to communicate messages to and from cmAudioSys" kw:[audio real_time]}
  7. /// Reserved DSP message selector id's (second field of all host<->audio system messages)
  8. enum
  9. {
  10. kMidiMsgArraySelAsId = 1000,
  11. kMidiSysExSelAsId,
  12. kUiSelAsId, // indicates a cmDspUiHdr_t msg
  13. kUiMstrSelAsId, // indicates a cmDspUiHdr_t msg containing master control information for the audio system
  14. kSsInitSelAsId, // indicates the msg is of type cmAudioSysSsInitMsg_t
  15. kStatusSelAsId, // indicates the msg is of type cmAudioSysStatus_t
  16. kNetSyncSelAsId, // sent with a cmDspNetMsg_t object
  17. };
  18. typedef struct
  19. {
  20. unsigned asSubIdx;
  21. unsigned selAsId; // Message selector id See kXXXSelAsId above
  22. unsigned selId; // Message specific selector
  23. } cmAudioSysMsg_t;
  24. // All of the UI messages that create a UI control contain an array of integers
  25. // as in the 'value' field. The array contains the id's associated with
  26. // the different programmable paramters which are part of the control.
  27. // For example a slider control has minimum,maximum, step size, and value
  28. // parameters. The location in the array is hard coded according to the
  29. // parameters meaning but the actual value of the id is left up to the
  30. // engine. This allows the engine to use whatever values work best for
  31. // it on a per instance basis.
  32. // Header record for all messages between the host and the DSP controllers.
  33. typedef struct
  34. {
  35. unsigned asSubIdx; // the audio sub-system this UI belongs to
  36. unsigned uiId; // msg type kXXXAsId
  37. unsigned selId; // action to perform see above
  38. unsigned flags; //
  39. unsigned instId; // DSP instance id
  40. unsigned instVarId; // DSP instance var id
  41. unsigned rsrvd;
  42. double value;
  43. } cmAudioSysMstr_t;
  44. /// The cmDspUiHdr_t.instId of UI control messages associated with master
  45. /// control encode the device,channel,in/out, and control type. These macros
  46. /// should be used for encoding and decoding.
  47. #define cmAudioSysFormUiInstId(dev,ch,ifl,ctl) (((dev)<<16) + ((ch)<<4) + ((ifl)<<3) + (ctl))
  48. #define cmAudioSysUiInstIdToDevIndex(instId) ( (instId) >> 16)
  49. #define cmAudioSysUiInstIdToChIndex(instId) (((instId) & 0x0000ffff) >> 4)
  50. #define cmAudioSysUiInstIdToInFlag(instId) ( (instId) & 0x08)
  51. #define cmAudioSysUiInstIdToCtlId(instId) ( (instId) & 0x07)
  52. /// Control id's used to identify the control type of master contols.
  53. enum
  54. {
  55. kSliderUiAsId = 0,
  56. kMeterUiAsId = 1,
  57. kMuteUiAsId = 2,
  58. kToneUiAsId = 3,
  59. kPassUiAsId = 4
  60. };
  61. /// This message is transmitted to the host application just prior to returning
  62. /// from cmAudioSysInitialize().
  63. /// When transmitted to the host this record acts as a message header.
  64. /// This header is followed by two zero terminated char arrays containing the device
  65. /// labels associated with the input and output devices.
  66. /// Message Layout: [ cmAudioSysInitMsg_t "In Device Label" "Out Device Label"]
  67. typedef struct
  68. {
  69. unsigned asSubIdx; ///< asSubIdx of this sub-system
  70. unsigned selId; ///< always kSsInitAsId
  71. unsigned asSubCnt; ///< count of sub-systems
  72. unsigned inDevIdx; ///< input device index
  73. unsigned outDevIdx; ///< output device index
  74. unsigned dspFramesPerCycle;
  75. double srate;
  76. unsigned inChCnt; ///< input device channel count
  77. unsigned outChCnt; ///< outut device channel count
  78. } cmAudioSysSsInitMsg_t;
  79. /// Audio sub-system status record - this message can be transmitted to the host at
  80. /// periodic intervals. See cmAudioSysStatusNotifyEnable().
  81. /// When transmitted to the host this record acts as the message header.
  82. /// This header is followed by two arrays of doubles containing the input and output meter values
  83. /// associated with the input and output audio devices.
  84. /// Message Layout: [ asSubIdx kStatusSelId cmAudioSysStatus_t iMeterArray[iMeterCnt] oMeterArray[oMeterCnt] ]
  85. typedef struct
  86. {
  87. unsigned asSubIdx; ///< originating audio sub-system
  88. unsigned updateCnt; ///< count of callbacks from the audio devices.
  89. unsigned wakeupCnt; ///< count of times the audio system thread has woken up after the cond. var has been signaled by the audio update thread.
  90. unsigned msgCbCnt; ///< count of msgs delivered via cmAsCallback() .
  91. unsigned audioCbCnt; ///< count of times the DSP execution was requested via cmAsCallback().
  92. unsigned iDevIdx; ///< Input device index
  93. unsigned oDevIdx; ///< Output device index
  94. unsigned overflowCnt; ///< count of times the audio input buffers overflowed
  95. unsigned underflowCnt; ///< count of times the audio output buffers underflowed
  96. unsigned iMeterCnt; ///< count of input meter channels
  97. unsigned oMeterCnt; ///< count of output meter channels
  98. } cmAudioSysStatus_t;
  99. //)
  100. #ifdef __cplusplus
  101. }
  102. #endif
  103. #endif