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AHI Device

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About AHI

AHI is an audio system that provides support for a wide range of audio hardware. Compared with the Audio Device, AHI offers more functionality, such as audio playback and recording from a user selected device.

Definitions

Terms used in the following discussions may be unfamiliar. Some of the more important ones are defined below.

Sample
A sample is one binary number, representing the amplitude at a fixed point in time. A sample is often stored as an 8 bit signed integer, a 16 bit signed integer, a 32 bit floating point number etc. AHI supports only integers.
Sample frame
In mono environment, a sample frame is the same as a sample. In stereo environment, a sample frame is a tuple of two samples. The first member is for the left channel and the second member is for the right channel.
Sound
Many sample frames stored in sequence as an array can be called a sound. A sound is, however, not limited to being formed by samples. It can also be parameters to an analog synth or a MIDI instrument, or be white noise. AHI supports only sounds formed by samples.

AHI Device

AHI device has two APIs: a library-like function interface for low-level access and device interface for high-level access.

AHI Device Commands and Functions

Command Command Operation
CMD_FLUSH Abort all current requests, both active and waiting, even other programs requests!
CMD_READ Read raw samples from audio input.
CMD_RESET Restore device to a known state.
CMD_START Start device processing (like ^Q).
CMD_STOP Stop device processing (like ^S).
CMD_WRITE Write raw samples to audio output.
NSCMD_DEVICEQUERY Query the device for its capabilities.

Device Interface

struct AHIRequest
{
    struct IOStdReq ahir_Std;       /* Standard IO request     */
    UWORD  ahir_Version;            /* Needed version          */
    UWORD  ahir_Pad1;
    ULONG  ahir_Private[2];         /* Hands off!              */
    ULONG  ahir_Type;               /* Sample format           */
    ULONG  ahir_Frequency;          /* Sample/Record frequency */
    Fixed  ahir_Volume;             /* Sample volume           */
    Fixed  ahir_Position;           /* Stereo position         */
    struct AHIRequest *ahir_Link;   /* For double buffering    */
};

Opening the AHI Device

Reading from the AHI Device

Writing to the AHI Device

Closing the AHI Device

Function Interface

Opening the AHI Device for Low-level Access

Obtaining the Hardware

Declaring Sounds

Playing Sounds

Closing the AHI Device

Examples

Playback Example

/*
** This program uses the device interface to play a sampled sound.
** The input is read from THE DEFAULT INPUT, make sure you
** start it with "PlayTest pri < mysample.raw" !
** Where pri is a number from -128 to +127 (may be omitted)
** The sample should be 8 bit signed, mono (see TYPE).
**
** PLEASE NOTE that earlier versions of this example contained a bug
** that sometimes DeleteIORequest'ed a pointer that was AllocMem'ed!
*/
 
#include <devices/ahi.h>
#include <dos/dosasl.h>
#include <exec/memory.h>
#include <proto/exec.h>
#include <proto/dos.h>
#include <proto/ahi.h>
#include <stdlib.h>
 
#define FREQUENCY  8000
#define TYPE       AHIST_M8S
#define BUFFERSIZE 20000
 
struct MsgPort    *AHImp     = NULL;
struct AHIRequest *AHIios[2] = {NULL,NULL};
struct AHIRequest *AHIio     = NULL;
APTR               AHIiocopy = NULL;
BYTE               AHIDevice = -1;
 
BYTE buffer1[BUFFERSIZE];
BYTE buffer2[BUFFERSIZE];
 
void cleanup(LONG rc)
{
  if(!AHIDevice)
    CloseDevice((struct IORequest *)AHIio);
  DeleteIORequest((struct IORequest *)AHIio);
  FreeMem(AHIiocopy,sizeof(struct AHIRequest));
  DeleteMsgPort(AHImp);
  exit(rc);
}
 
int main(int argc, char *argv[])
{
  BYTE *p1=buffer1,*p2=buffer2;
  void *tmp;
  ULONG signals,length;
  struct AHIRequest *link = NULL;
  LONG priority = 0;
  BYTE pri;
 
  if(argc == 2)
  {
    StrToLong(argv[1], &priority);
  }
  pri = priority;
  Printf("Sound priority: %ld\n", pri);
 
  if((AHImp=CreateMsgPort()) != NULL) {
    if((AHIio=(struct AHIRequest *)CreateIORequest(AHImp,sizeof(struct AHIRequest))) != NULL) {
      AHIio->ahir_Version = 4;
      AHIDevice=OpenDevice(AHINAME,0,(struct IORequest *)AHIio,0);
    }
  }
 
  if(AHIDevice) {
    Printf("Unable to open %s/0 version 4\n",AHINAME);
    cleanup(RETURN_FAIL);
  }
 
// Make a copy of the request (for double buffering)
  AHIiocopy = AllocMem(sizeof(struct AHIRequest), MEMF_ANY);
  if(! AHIiocopy) {
    cleanup(RETURN_FAIL);
  }
  CopyMem(AHIio, AHIiocopy, sizeof(struct AHIRequest));
  AHIios[0]=AHIio;
  AHIios[1]=AHIiocopy;
 
  SetIoErr(0);
 
  for(;;) {
 
// Fill buffer
    length = Read(Input(),p1,BUFFERSIZE);
 
// Play buffer
    AHIios[0]->ahir_Std.io_Message.mn_Node.ln_Pri = pri;
    AHIios[0]->ahir_Std.io_Command  = CMD_WRITE;
    AHIios[0]->ahir_Std.io_Data     = p1;
    AHIios[0]->ahir_Std.io_Length   = length;
    AHIios[0]->ahir_Std.io_Offset   = 0;
    AHIios[0]->ahir_Frequency       = FREQUENCY;
    AHIios[0]->ahir_Type            = TYPE;
    AHIios[0]->ahir_Volume          = 0x10000;          // Full volume
    AHIios[0]->ahir_Position        = 0x8000;           // Centered
    AHIios[0]->ahir_Link            = link;
    SendIO((struct IORequest *) AHIios[0]);
 
    if(link) {
 
// Wait until the last buffer is finished (== the new buffer is started)
      signals=Wait(SIGBREAKF_CTRL_C | (1L << AHImp->mp_SigBit));
 
// Check for Ctrl-C and abort if pressed
      if(signals & SIGBREAKF_CTRL_C) {
        SetIoErr(ERROR_BREAK);
        break;
      }
 
// Remove the reply and abort on error
      if(WaitIO((struct IORequest *) link)) {
        SetIoErr(ERROR_WRITE_PROTECTED);
        break;
      }
    }
 
// Check for end-of-sound, and wait until it is finished before aborting
    if(length != BUFFERSIZE) {
      WaitIO((struct IORequest *) AHIios[0]);
      break;
    }
 
    link = AHIios[0];
 
// Swap buffer and request pointers, and restart
    tmp    = p1;
    p1     = p2;
    p2     = tmp;
 
    tmp    = AHIios[0];
    AHIios[0] = AHIios[1];
    AHIios[1] = tmp;
  }
 
 
// Abort any pending iorequests
  AbortIO((struct IORequest *) AHIios[0]);
  WaitIO((struct IORequest *) AHIios[0]);
 
  if(link) { // Only if the second request was started
    AbortIO((struct IORequest *) AHIios[1]);
    WaitIO((struct IORequest *) AHIios[1]);
  }
 
  if(IoErr()) {
    PrintFault(IoErr(), argv[0] );
    cleanup(RETURN_ERROR);
  }
 
  cleanup(RETURN_OK);
  return RETURN_OK; // Make compiler happy
}

Double Buffered Sound Example

/* Simple sample player for AHI using the low-level API
   with double buffered AHIST_DYNAMICSAMPLE sounds.
 
   Usage: DoubleBuffer < [raw sample file]
 
   the file must be in mono 16 bit signed big endian format sampled
   in 17640 Hz.
 
   This software is Public Domain. */
 
#include <devices/ahi.h>
#include <exec/exec.h>
#include <proto/ahi.h>
#include <proto/dos.h>
#include <proto/exec.h>
 
#define EQ ==
#define MINBUFFLEN 10000
 
struct Library    *AHIBase;
struct MsgPort    *AHImp=NULL;
struct AHIRequest *AHIio=NULL;
BYTE               AHIDevice=-1;
 
BYTE signal=-1;
 
struct AHIAudioModeRequester *req=NULL;
struct AHIAudioCtrl *actrl=NULL;
 
BOOL DBflag=FALSE;  // double buffer flag
ULONG BufferLen=NULL;
 
struct AHISampleInfo Sample0 =
{
  AHIST_M16S,
  NULL,
  NULL,
};
 
struct AHISampleInfo Sample1 =
{
  AHIST_M16S,
  NULL,
  NULL,
};
 
__asm __saveds ULONG SoundFunc(register __a0 struct Hook *hook,
    register __a2 struct AHIAudioCtrl *actrl,
    register __a1 struct AHISoundMessage *smsg)
{
  if(DBflag = !DBflag) // Flip and test
    AHI_SetSound(0,1,0,0,actrl,NULL);
  else
    AHI_SetSound(0,0,0,0,actrl,NULL);
  Signal(actrl->ahiac_UserData,(1L<<signal));
  return NULL;
}
 
struct Hook SoundHook =
{
  0,0,
  SoundFunc,
  NULL,
  NULL,
};
 
 
int main()
{
  ULONG mixfreq,playsamples,readsamples,signals,i;
 
  if(AHImp=CreateMsgPort())
  {
    if(AHIio=(struct AHIRequest *)CreateIORequest(AHImp,sizeof(struct AHIRequest)))
    {
      AHIio->ahir_Version = 4;  // Open at least version 4 of 'ahi.device'.
      if(!(AHIDevice=OpenDevice(AHINAME,AHI_NO_UNIT,(struct IORequest *)AHIio,NULL)))
      {
        AHIBase=(struct Library *)AHIio->ahir_Std.io_Device;
 
        if(req=AHI_AllocAudioRequest(
            AHIR_PubScreenName,"",
            AHIR_TitleText,"Select a mode and rate",
            AHIR_InitialMixFreq,17640,
            AHIR_DoMixFreq,TRUE,
            TAG_DONE))
        {
          if(AHI_AudioRequest(req,TAG_DONE))
          {
            if(actrl=AHI_AllocAudio(
                AHIA_AudioID,req->ahiam_AudioID,
                AHIA_MixFreq,req->ahiam_MixFreq,
                AHIA_Channels,1,
                AHIA_Sounds,2,
                AHIA_SoundFunc,&SoundHook,
                AHIA_UserData,FindTask(NULL),
                TAG_DONE))
            {
              AHI_GetAudioAttrs(AHI_INVALID_ID,actrl,
                  AHIDB_MaxPlaySamples,&playsamples,
                  TAG_DONE);
              AHI_ControlAudio(actrl,
                  AHIC_MixFreq_Query,&mixfreq,
                  TAG_DONE);
              BufferLen=playsamples*17640/mixfreq;
              if (BufferLen<MINBUFFLEN)
                BufferLen=MINBUFFLEN;
 
              Sample0.ahisi_Length=BufferLen;
              Sample1.ahisi_Length=BufferLen;
              Sample0.ahisi_Address=AllocVec(BufferLen*2,MEMF_PUBLIC|MEMF_CLEAR);
              Sample1.ahisi_Address=AllocVec(BufferLen*2,MEMF_PUBLIC|MEMF_CLEAR);
 
              if(Sample0.ahisi_Address && Sample1.ahisi_Address)
              {
                if((!(AHI_LoadSound(0,AHIST_DYNAMICSAMPLE,&Sample0,actrl))) &&
                   (!(AHI_LoadSound(1,AHIST_DYNAMICSAMPLE,&Sample1,actrl))))
                {
                  if((signal=AllocSignal(-1)) != -1)
                  {
                    if(!(AHI_ControlAudio(actrl,
                        AHIC_Play,TRUE,
                        TAG_DONE)))
                    {
// Everything is set up now. Let's load the buffers and start rockin'...
                      Read(Input(),Sample0.ahisi_Address,BufferLen*2);
 
// The new AHI_PlayA() function is demonstrated...
                      AHI_Play(actrl,
                        AHIP_BeginChannel,0,
                        AHIP_Freq,17640,
                        AHIP_Vol,0x10000L,
                        AHIP_Pan,0x8000L,
                        AHIP_Sound,0,
                        AHIP_Offset,0,
                        AHIP_Length,0,
                        AHIP_EndChannel,NULL,
                        TAG_DONE);
/* These functions were available in V2, too.
                      AHI_SetFreq(0,17640,actrl,AHISF_IMM);
                      AHI_SetVol(0,0x10000L,0x8000L,actrl,AHISF_IMM);
                      AHI_SetSound(0,0,0,0,actrl,AHISF_IMM);
*/
                      for(;;)
                      {
                        signals=Wait((1L<<signal) | SIGBREAKF_CTRL_C);
                        if(signals & SIGBREAKF_CTRL_C)
                          break;
 
                        if(DBflag)
                        {
                          readsamples=Read(Input(),Sample1.ahisi_Address,BufferLen*2)/2;
                          if(readsamples<BufferLen)
                          {
                            // Clear rest of buffer
                            for(i=readsamples;i<BufferLen;i++)
                              ((WORD *)Sample1.ahisi_Address)[i]=0;
                            Wait(1L<<signal);
                            // Clear other buffer
                            for(i=0;i<BufferLen;i++)
                              ((WORD *)Sample0.ahisi_Address)[i]=0;
                            break;
                          }
                        }
                        else
                        {
                          readsamples=Read(Input(),Sample0.ahisi_Address,BufferLen*2)/2;
                          if(readsamples<BufferLen)
                          {
                            // Clear rest of buffer
                            for(i=readsamples;i<BufferLen;i++)
                              ((WORD *)Sample0.ahisi_Address)[i]=0;
                            Wait(1L<<signal);
                            // Clear other buffer
                            for(i=0;i<BufferLen;i++)
                              ((WORD *)Sample1.ahisi_Address)[i]=0;
                            break;
                          }
                        }
 
 
                      }
                      if(signals & SIGBREAKF_CTRL_C)
                        Printf("***Break\n");
                      else
                        Wait(1L<<signal);   // Wait for half-loaded buffer to finish.
 
                      AHI_ControlAudio(actrl,
                          AHIC_Play,FALSE,
                          TAG_DONE);
                    }
                    FreeSignal(signal);
                    signal=-1;
                  }
 
                }
                else
                  Printf("Cannot intialize sample buffers\n");
              }
              else
                Printf("Out of memory.\n");
 
              FreeVec(Sample0.ahisi_Address);
              FreeVec(Sample1.ahisi_Address);
              Sample0.ahisi_Address=NULL;
              Sample1.ahisi_Address=NULL;
              AHI_FreeAudio(actrl);
              actrl=NULL;
            }
            else
              Printf("Unable to allocate sound hardware\n");
          }
          else
          {
            if(IoErr() EQ NULL)
              Printf("Aborted.\n");
            else if(IoErr() EQ ERROR_NO_MORE_ENTRIES)
              Printf("No available audio modes.\n");
            else if(IoErr() EQ ERROR_NO_FREE_STORE)
              Printf("Out of memory.\n");
          }
 
          AHI_FreeAudioRequest(req);
          req=NULL;
        }
        else
          Printf("Out of memory.\n");
 
        CloseDevice((struct IORequest *)AHIio);
        AHIDevice=-1; // Good habit, IMHO.
      }
      DeleteIORequest((struct IORequest *)AHIio);
      AHIio=NULL;
    }
    DeleteMsgPort(AHImp);
    AHImp=NULL;
  }
}

Recording Example

/*
** This program uses the device interface to sample sound data.
** The output is written to THE DEFAULT OUTPUT, make sure you
** start it with "RecordTest > mysample.raw" !
*/
 
#include <devices/ahi.h>
#include <dos/dosasl.h>
#include <proto/exec.h>
#include <proto/dos.h>
#include <proto/ahi.h>
#include <stdlib.h>
 
#define FREQUENCY 8000
#define TYPE       AHIST_M8S
#define BUFFERSIZE 20000
 
struct Library    *AHIBase;
struct MsgPort    *AHImp=NULL;
struct AHIRequest *AHIio=NULL;
BYTE               AHIDevice=-1;
 
BYTE buffer1[BUFFERSIZE];
BYTE buffer2[BUFFERSIZE];
 
void cleanup(LONG rc)
{
  if(!AHIDevice)
    CloseDevice((struct IORequest *)AHIio);
  DeleteIORequest((struct IORequest *)AHIio);
  DeleteMsgPort(AHImp);
  exit(rc);
}
 
void main(int argc, char *argv[])
{
  BYTE *p1=buffer1,*p2=buffer2,*tmp;
  ULONG signals;
 
  if(AHImp=CreateMsgPort()) {
    if(AHIio=(struct AHIRequest *)CreateIORequest(AHImp,sizeof(struct AHIRequest))) {
      AHIio->ahir_Version = 4;
      AHIDevice=OpenDevice(AHINAME,0,(struct IORequest *)AHIio,NULL);
    }
  }
 
  if(AHIDevice) {
    Printf("Unable to open %s/0 version 4\n",AHINAME);
    cleanup(RETURN_FAIL);
  }
 
// Initialize the first read
  AHIio->ahir_Std.io_Command=CMD_READ;
  AHIio->ahir_Std.io_Data=&buffer1;
  AHIio->ahir_Std.io_Length=BUFFERSIZE;
  AHIio->ahir_Std.io_Offset=0;
  AHIio->ahir_Frequency=FREQUENCY;
  AHIio->ahir_Type=TYPE;
  if(!DoIO((struct IORequest *) AHIio)) {
 
// The first buffer is now filled
    SetIoErr(NULL);
 
    for(;;) {
      ULONG length;
 
      length=AHIio->ahir_Std.io_Actual;
 
// Initialize the second read (note that io_Offset is not cleared!)
      AHIio->ahir_Std.io_Data=p2;
      AHIio->ahir_Std.io_Length=BUFFERSIZE;
      AHIio->ahir_Frequency=FREQUENCY;
      AHIio->ahir_Type=TYPE;
      SendIO((struct IORequest *) AHIio);
 
// While the second read is in progress, save the first buffer to stdout
      if(Write(Output(),p1,length) != length) {
        break;
      }
 
      signals=Wait(SIGBREAKF_CTRL_C | (1L << AHImp->mp_SigBit));
 
      if(signals & SIGBREAKF_CTRL_C) {
        SetIoErr(ERROR_BREAK);
        break;
      }
 
// Remove the reply 
      if(WaitIO((struct IORequest *) AHIio)) {
        SetIoErr(ERROR_READ_PROTECTED);
        break;
      }
 
// Swap buffer pointers and repeat
      tmp=p1;
      p1=p2;
      p2=tmp;
    }
 
// Abort any pending iorequests
    AbortIO((struct IORequest *) AHIio);
    WaitIO((struct IORequest *) AHIio);
  }
 
  if(IoErr())
  {
    PrintFault(IoErr(), argv[0] ); // Oh, common! It's not MY fault that this
                                   // routine prints to stdout instead of stderr!
    cleanup(RETURN_ERROR);
  }
 
  cleanup(RETURN_OK);
}