distrib/sdl-1.2.12/src/audio/ums/SDL_umsaudio.c - platform/external/qemu - Git at Google

 /*
     SDL - Simple DirectMedia Layer
     Copyright (C) 1997-2006 Sam Lantinga

     This library is free software; you can redistribute it and/or
     modify it under the terms of the GNU Lesser General Public
     License as published by the Free Software Foundation; either
     version 2.1 of the License, or (at your option) any later version.

     This library 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
     Lesser General Public License for more details.

     You should have received a copy of the GNU Lesser General Public
     License along with this library; if not, write to the Free Software
     Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA

     Carsten Griwodz
     griff@kom.tu-darmstadt.de

     based on linux/SDL_dspaudio.c by Sam Lantinga
 */
 #include "SDL_config.h"

 /* Allow access to a raw mixing buffer */

 #include <errno.h>
 #include <unistd.h>
 #include <fcntl.h>
 #include <sys/types.h>
 #include <sys/time.h>
 #include <sys/ioctl.h>
 #include <sys/stat.h>
 #include <sys/mman.h>

 #include "SDL_audio.h"
 #include "../SDL_audio_c.h"
 #include "../SDL_audiodev_c.h"
 #include "SDL_umsaudio.h"

 /* The tag name used by UMS audio */
 #define UMS_DRIVER_NAME         "ums"

 #define DEBUG_AUDIO 1

 /* Audio driver functions */
 static int UMS_OpenAudio(_THIS, SDL_AudioSpec *spec);
 static void UMS_PlayAudio(_THIS);
 static Uint8 *UMS_GetAudioBuf(_THIS);
 static void UMS_CloseAudio(_THIS);

 static UMSAudioDevice_ReturnCode UADOpen(_THIS,  string device, string mode, long flags);
 static UMSAudioDevice_ReturnCode UADClose(_THIS);
 static UMSAudioDevice_ReturnCode UADGetBitsPerSample(_THIS, long* bits);
 static UMSAudioDevice_ReturnCode UADSetBitsPerSample(_THIS, long bits);
 static UMSAudioDevice_ReturnCode UADSetSampleRate(_THIS, long rate, long* set_rate);
 static UMSAudioDevice_ReturnCode UADSetByteOrder(_THIS, string byte_order);
 static UMSAudioDevice_ReturnCode UADSetAudioFormatType(_THIS, string fmt);
 static UMSAudioDevice_ReturnCode UADSetNumberFormat(_THIS, string fmt);
 static UMSAudioDevice_ReturnCode UADInitialize(_THIS);
 static UMSAudioDevice_ReturnCode UADStart(_THIS);
 static UMSAudioDevice_ReturnCode UADStop(_THIS);
 static UMSAudioDevice_ReturnCode UADSetTimeFormat(_THIS,  UMSAudioTypes_TimeFormat fmt );
 static UMSAudioDevice_ReturnCode UADWriteBuffSize(_THIS,  long* buff_size );
 static UMSAudioDevice_ReturnCode UADWriteBuffRemain(_THIS,  long* buff_size );
 static UMSAudioDevice_ReturnCode UADWriteBuffUsed(_THIS,  long* buff_size );
 static UMSAudioDevice_ReturnCode UADSetDMABufferSize(_THIS,  long bytes, long* bytes_ret );
 static UMSAudioDevice_ReturnCode UADSetVolume(_THIS,  long volume );
 static UMSAudioDevice_ReturnCode UADSetBalance(_THIS,  long balance );
 static UMSAudioDevice_ReturnCode UADSetChannels(_THIS,  long channels );
 static UMSAudioDevice_ReturnCode UADPlayRemainingData(_THIS,  boolean block );
 static UMSAudioDevice_ReturnCode UADEnableOutput(_THIS,  string output, long* left_gain, long* right_gain);
 static UMSAudioDevice_ReturnCode UADWrite(_THIS,  UMSAudioTypes_Buffer* buff, long samples, long* samples_written);

 /* Audio driver bootstrap functions */
 static int Audio_Available(void)
 {
     return 1;
 }

 static void Audio_DeleteDevice(_THIS)
 {
     if(this->hidden->playbuf._buffer) SDL_free(this->hidden->playbuf._buffer);
     if(this->hidden->fillbuf._buffer) SDL_free(this->hidden->fillbuf._buffer);
     _somFree( this->hidden->umsdev );
     SDL_free(this->hidden);
     SDL_free(this);
 }

 static SDL_AudioDevice *Audio_CreateDevice(int devindex)
 {
     SDL_AudioDevice *this;

     /*
      * Allocate and initialize management storage and private management
      * storage for this SDL-using library.
      */
     this = (SDL_AudioDevice *)SDL_malloc(sizeof(SDL_AudioDevice));
     if ( this ) {
         SDL_memset(this, 0, (sizeof *this));
         this->hidden = (struct SDL_PrivateAudioData *)SDL_malloc((sizeof *this->hidden));
     }
     if ( (this == NULL) || (this->hidden == NULL) ) {
         SDL_OutOfMemory();
         if ( this ) {
             SDL_free(this);
         }
         return(0);
     }
     SDL_memset(this->hidden, 0, (sizeof *this->hidden));
 #ifdef DEBUG_AUDIO
     fprintf(stderr, "Creating UMS Audio device\n");
 #endif

     /*
      * Calls for UMS env initialization and audio object construction.
      */
     this->hidden->ev     = somGetGlobalEnvironment();
     this->hidden->umsdev = UMSAudioDeviceNew();

     /*
      * Set the function pointers.
      */
     this->OpenAudio   = UMS_OpenAudio;
     this->WaitAudio   = NULL;           /* we do blocking output */
     this->PlayAudio   = UMS_PlayAudio;
     this->GetAudioBuf = UMS_GetAudioBuf;
     this->CloseAudio  = UMS_CloseAudio;
     this->free        = Audio_DeleteDevice;

 #ifdef DEBUG_AUDIO
     fprintf(stderr, "done\n");
 #endif
     return this;
 }

 AudioBootStrap UMS_bootstrap = {
 	UMS_DRIVER_NAME, "AIX UMS audio",
 	Audio_Available, Audio_CreateDevice
 };

 static Uint8 *UMS_GetAudioBuf(_THIS)
 {
 #ifdef DEBUG_AUDIO
     fprintf(stderr, "enter UMS_GetAudioBuf\n");
 #endif
     return this->hidden->fillbuf._buffer;
 /*
     long                      bufSize;
     UMSAudioDevice_ReturnCode rc;

     rc = UADSetTimeFormat(this, UMSAudioTypes_Bytes );
     rc = UADWriteBuffSize(this,  bufSize );
 */
 }

 static void UMS_CloseAudio(_THIS)
 {
     UMSAudioDevice_ReturnCode rc;

 #ifdef DEBUG_AUDIO
     fprintf(stderr, "enter UMS_CloseAudio\n");
 #endif
     rc = UADPlayRemainingData(this, TRUE);
     rc = UADStop(this);
     rc = UADClose(this);
 }

 static void UMS_PlayAudio(_THIS)
 {
     UMSAudioDevice_ReturnCode rc;
     long                      samplesToWrite;
     long                      samplesWritten;
     UMSAudioTypes_Buffer      swpbuf;

 #ifdef DEBUG_AUDIO
     fprintf(stderr, "enter UMS_PlayAudio\n");
 #endif
     samplesToWrite = this->hidden->playbuf._length/this->hidden->bytesPerSample;
     do
     {
         rc = UADWrite(this,  &this->hidden->playbuf,
 		       samplesToWrite,
 	               &samplesWritten );
 	samplesToWrite -= samplesWritten;

 	/* rc values: UMSAudioDevice_Success
 	 *            UMSAudioDevice_Failure
 	 *            UMSAudioDevice_Preempted
 	 *            UMSAudioDevice_Interrupted
 	 *            UMSAudioDevice_DeviceError
 	 */
 	if ( rc == UMSAudioDevice_DeviceError ) {
 #ifdef DEBUG_AUDIO
 	    fprintf(stderr, "Returning from PlayAudio with devices error\n");
 #endif
 	    return;
 	}
     }
     while(samplesToWrite>0);

     SDL_LockAudio();
     SDL_memcpy( &swpbuf,                &this->hidden->playbuf, sizeof(UMSAudioTypes_Buffer) );
     SDL_memcpy( &this->hidden->playbuf, &this->hidden->fillbuf, sizeof(UMSAudioTypes_Buffer) );
     SDL_memcpy( &this->hidden->fillbuf, &swpbuf,                sizeof(UMSAudioTypes_Buffer) );
     SDL_UnlockAudio();

 #ifdef DEBUG_AUDIO
     fprintf(stderr, "Wrote audio data and swapped buffer\n");
 #endif
 }

 #if 0
 // 	/* Set the DSP frequency */
 // 	value = spec->freq;
 // 	if ( ioctl(this->hidden->audio_fd, SOUND_PCM_WRITE_RATE, &value) < 0 ) {
 // 		SDL_SetError("Couldn't set audio frequency");
 // 		return(-1);
 // 	}
 // 	spec->freq = value;
 #endif

 static int UMS_OpenAudio(_THIS, SDL_AudioSpec *spec)
 {
     char*  audiodev = "/dev/paud0";
     long   lgain;
     long   rgain;
     long   outRate;
     long   outBufSize;
     long   bitsPerSample;
     long   samplesPerSec;
     long   success;
     Uint16 test_format;
     int    frag_spec;
     UMSAudioDevice_ReturnCode rc;

 #ifdef DEBUG_AUDIO
     fprintf(stderr, "enter UMS_OpenAudio\n");
 #endif
     rc = UADOpen(this, audiodev,"PLAY", UMSAudioDevice_BlockingIO);
     if ( rc != UMSAudioDevice_Success ) {
 	SDL_SetError("Couldn't open %s: %s", audiodev, strerror(errno));
 	return -1;
     }

     rc = UADSetAudioFormatType(this, "PCM");

     success = 0;
     test_format = SDL_FirstAudioFormat(spec->format);
     do
     {
 #ifdef DEBUG_AUDIO
         fprintf(stderr, "Trying format 0x%4.4x\n", test_format);
 #endif
         switch ( test_format )
         {
         case AUDIO_U8:
 /* from the mac code: better ? */
 /* sample_bits = spec->size / spec->samples / spec->channels * 8; */
 	    success       = 1;
             bitsPerSample = 8;
             rc = UADSetSampleRate(this,  spec->freq << 16, &outRate );
             rc = UADSetByteOrder(this, "MSB");       /* irrelevant */
             rc = UADSetNumberFormat(this, "UNSIGNED");
             break;
         case AUDIO_S8:
 	    success       = 1;
             bitsPerSample = 8;
             rc = UADSetSampleRate(this,  spec->freq << 16, &outRate );
             rc = UADSetByteOrder(this, "MSB");       /* irrelevant */
             rc = UADSetNumberFormat(this, "SIGNED");
             break;
         case AUDIO_S16LSB:
 	    success       = 1;
             bitsPerSample = 16;
             rc = UADSetSampleRate(this,  spec->freq << 16, &outRate );
             rc = UADSetByteOrder(this, "LSB");
             rc = UADSetNumberFormat(this, "SIGNED");
             break;
         case AUDIO_S16MSB:
 	    success       = 1;
             bitsPerSample = 16;
             rc = UADSetSampleRate(this,  spec->freq << 16, &outRate );
             rc = UADSetByteOrder(this, "MSB");
             rc = UADSetNumberFormat(this, "SIGNED");
             break;
         case AUDIO_U16LSB:
 	    success       = 1;
             bitsPerSample = 16;
             rc = UADSetSampleRate(this,  spec->freq << 16, &outRate );
             rc = UADSetByteOrder(this, "LSB");
             rc = UADSetNumberFormat(this, "UNSIGNED");
             break;
         case AUDIO_U16MSB:
 	    success       = 1;
             bitsPerSample = 16;
             rc = UADSetSampleRate(this,  spec->freq << 16, &outRate );
             rc = UADSetByteOrder(this, "MSB");
             rc = UADSetNumberFormat(this, "UNSIGNED");
             break;
         default:
             break;
         }
         if ( ! success ) {
             test_format = SDL_NextAudioFormat();
         }
     }
     while ( ! success && test_format );

     if ( success == 0 ) {
         SDL_SetError("Couldn't find any hardware audio formats");
         return -1;
     }

     spec->format = test_format;

     for ( frag_spec = 0; (0x01<<frag_spec) < spec->size; ++frag_spec );
     if ( (0x01<<frag_spec) != spec->size ) {
         SDL_SetError("Fragment size must be a power of two");
         return -1;
     }
     if ( frag_spec > 2048 ) frag_spec = 2048;

     this->hidden->bytesPerSample   = (bitsPerSample / 8) * spec->channels;
     samplesPerSec                  = this->hidden->bytesPerSample * outRate;

     this->hidden->playbuf._length  = 0;
     this->hidden->playbuf._maximum = spec->size;
     this->hidden->playbuf._buffer  = (unsigned char*)SDL_malloc(spec->size);
     this->hidden->fillbuf._length  = 0;
     this->hidden->fillbuf._maximum = spec->size;
     this->hidden->fillbuf._buffer  = (unsigned char*)SDL_malloc(spec->size);

     rc = UADSetBitsPerSample(this,  bitsPerSample );
     rc = UADSetDMABufferSize(this,  frag_spec, &outBufSize );
     rc = UADSetChannels(this, spec->channels);      /* functions reduces to mono or stereo */

     lgain = 100; /*maximum left input gain*/
     rgain = 100; /*maimum right input gain*/
     rc = UADEnableOutput(this, "LINE_OUT",&lgain,&rgain);
     rc = UADInitialize(this);
     rc = UADStart(this);
     rc = UADSetVolume(this, 100);
     rc = UADSetBalance(this, 0);

     /* We're ready to rock and roll. :-) */
     return 0;
 }


 static UMSAudioDevice_ReturnCode UADGetBitsPerSample(_THIS, long* bits)
 {
     return UMSAudioDevice_get_bits_per_sample( this->hidden->umsdev,
 					       this->hidden->ev,
 					       bits );
 }

 static UMSAudioDevice_ReturnCode UADSetBitsPerSample(_THIS, long bits)
 {
     return UMSAudioDevice_set_bits_per_sample( this->hidden->umsdev,
 					       this->hidden->ev,
 					       bits );
 }

 static UMSAudioDevice_ReturnCode UADSetSampleRate(_THIS, long rate, long* set_rate)
 {
     /* from the mac code: sample rate = spec->freq << 16; */
     return UMSAudioDevice_set_sample_rate( this->hidden->umsdev,
 					   this->hidden->ev,
 					   rate,
 					   set_rate );
 }

 static UMSAudioDevice_ReturnCode UADSetByteOrder(_THIS, string byte_order)
 {
     return UMSAudioDevice_set_byte_order( this->hidden->umsdev,
 					  this->hidden->ev,
 					  byte_order );
 }

 static UMSAudioDevice_ReturnCode UADSetAudioFormatType(_THIS, string fmt)
 {
     /* possible PCM, A_LAW or MU_LAW */
     return UMSAudioDevice_set_audio_format_type( this->hidden->umsdev,
 						 this->hidden->ev,
 						 fmt );
 }

 static UMSAudioDevice_ReturnCode UADSetNumberFormat(_THIS, string fmt)
 {
     /* possible SIGNED, UNSIGNED, or TWOS_COMPLEMENT */
     return UMSAudioDevice_set_number_format( this->hidden->umsdev,
 					     this->hidden->ev,
 					     fmt );
 }

 static UMSAudioDevice_ReturnCode UADInitialize(_THIS)
 {
     return UMSAudioDevice_initialize( this->hidden->umsdev,
 				      this->hidden->ev );
 }

 static UMSAudioDevice_ReturnCode UADStart(_THIS)
 {
     return UMSAudioDevice_start( this->hidden->umsdev,
 				 this->hidden->ev );
 }

 static UMSAudioDevice_ReturnCode UADSetTimeFormat(_THIS,  UMSAudioTypes_TimeFormat fmt )
 {
     /*
      * Switches the time format to the new format, immediately.
      * possible UMSAudioTypes_Msecs, UMSAudioTypes_Bytes or UMSAudioTypes_Samples
      */
     return UMSAudioDevice_set_time_format( this->hidden->umsdev,
 					   this->hidden->ev,
 					   fmt );
 }

 static UMSAudioDevice_ReturnCode UADWriteBuffSize(_THIS,  long* buff_size )
 {
     /*
      * returns write buffer size in the current time format
      */
     return UMSAudioDevice_write_buff_size( this->hidden->umsdev,
                                            this->hidden->ev,
 					   buff_size );
 }

 static UMSAudioDevice_ReturnCode UADWriteBuffRemain(_THIS,  long* buff_size )
 {
     /*
      * returns amount of available space in the write buffer
      * in the current time format
      */
     return UMSAudioDevice_write_buff_remain( this->hidden->umsdev,
                                              this->hidden->ev,
 					     buff_size );
 }

 static UMSAudioDevice_ReturnCode UADWriteBuffUsed(_THIS,  long* buff_size )
 {
     /*
      * returns amount of filled space in the write buffer
      * in the current time format
      */
     return UMSAudioDevice_write_buff_used( this->hidden->umsdev,
                                            this->hidden->ev,
 					   buff_size );
 }

 static UMSAudioDevice_ReturnCode UADSetDMABufferSize(_THIS,  long bytes, long* bytes_ret )
 {
     /*
      * Request a new DMA buffer size, maximum requested size 2048.
      * Takes effect with next initialize() call.
      * Devices may or may not support DMA.
      */
     return UMSAudioDevice_set_DMA_buffer_size( this->hidden->umsdev,
 					       this->hidden->ev,
 					       bytes,
 					       bytes_ret );
 }

 static UMSAudioDevice_ReturnCode UADSetVolume(_THIS,  long volume )
 {
     /*
      * Set the volume.
      * Takes effect immediately.
      */
     return UMSAudioDevice_set_volume( this->hidden->umsdev,
 				      this->hidden->ev,
 				      volume );
 }

 static UMSAudioDevice_ReturnCode UADSetBalance(_THIS,  long balance )
 {
     /*
      * Set the balance.
      * Takes effect immediately.
      */
     return UMSAudioDevice_set_balance( this->hidden->umsdev,
 				       this->hidden->ev,
 				       balance );
 }

 static UMSAudioDevice_ReturnCode UADSetChannels(_THIS,  long channels )
 {
     /*
      * Set mono or stereo.
      * Takes effect with next initialize() call.
      */
     if ( channels != 1 ) channels = 2;
     return UMSAudioDevice_set_number_of_channels( this->hidden->umsdev,
 				                  this->hidden->ev,
 				                  channels );
 }

 static UMSAudioDevice_ReturnCode UADOpen(_THIS,  string device, string mode, long flags)
 {
     return UMSAudioDevice_open( this->hidden->umsdev,
 				this->hidden->ev,
 				device,
 				mode,
 				flags );
 }

 static UMSAudioDevice_ReturnCode UADWrite(_THIS,  UMSAudioTypes_Buffer* buff,
                                            long samples,
 					   long* samples_written)
 {
     return UMSAudioDevice_write( this->hidden->umsdev,
 				 this->hidden->ev,
 				 buff,
 				 samples,
 				 samples_written );
 }

 static UMSAudioDevice_ReturnCode UADPlayRemainingData(_THIS,  boolean block )
 {
     return UMSAudioDevice_play_remaining_data( this->hidden->umsdev,
 					       this->hidden->ev,
 					       block);
 }

 static UMSAudioDevice_ReturnCode UADStop(_THIS)
 {
     return UMSAudioDevice_stop( this->hidden->umsdev,
 				this->hidden->ev );
 }

 static UMSAudioDevice_ReturnCode UADClose(_THIS)
 {
     return UMSAudioDevice_close( this->hidden->umsdev,
 				 this->hidden->ev );
 }

 static UMSAudioDevice_ReturnCode UADEnableOutput(_THIS,  string output, long* left_gain, long* right_gain)
 {
     return UMSAudioDevice_enable_output( this->hidden->umsdev,
 					 this->hidden->ev,
 					 output,
 					 left_gain,
 					 right_gain );
 }
	/*
	SDL - Simple DirectMedia Layer
	Copyright (C) 1997-2006 Sam Lantinga

	This library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Lesser General Public
	License as published by the Free Software Foundation; either
	version 2.1 of the License, or (at your option) any later version.

	This library 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
	Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with this library; if not, write to the Free Software
	Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA

	Carsten Griwodz
	griff@kom.tu-darmstadt.de

	based on linux/SDL_dspaudio.c by Sam Lantinga
	*/
	#include "SDL_config.h"

	/* Allow access to a raw mixing buffer */

	#include <errno.h>
	#include <unistd.h>
	#include <fcntl.h>
	#include <sys/types.h>
	#include <sys/time.h>
	#include <sys/ioctl.h>
	#include <sys/stat.h>
	#include <sys/mman.h>

	#include "SDL_audio.h"
	#include "../SDL_audio_c.h"
	#include "../SDL_audiodev_c.h"
	#include "SDL_umsaudio.h"

	/* The tag name used by UMS audio */
	#define UMS_DRIVER_NAME "ums"

	#define DEBUG_AUDIO 1

	/* Audio driver functions */
	static int UMS_OpenAudio(_THIS, SDL_AudioSpec *spec);
	static void UMS_PlayAudio(_THIS);
	static Uint8 *UMS_GetAudioBuf(_THIS);
	static void UMS_CloseAudio(_THIS);

	static UMSAudioDevice_ReturnCode UADOpen(_THIS, string device, string mode, long flags);
	static UMSAudioDevice_ReturnCode UADClose(_THIS);
	static UMSAudioDevice_ReturnCode UADGetBitsPerSample(_THIS, long* bits);
	static UMSAudioDevice_ReturnCode UADSetBitsPerSample(_THIS, long bits);
	static UMSAudioDevice_ReturnCode UADSetSampleRate(_THIS, long rate, long* set_rate);
	static UMSAudioDevice_ReturnCode UADSetByteOrder(_THIS, string byte_order);
	static UMSAudioDevice_ReturnCode UADSetAudioFormatType(_THIS, string fmt);
	static UMSAudioDevice_ReturnCode UADSetNumberFormat(_THIS, string fmt);
	static UMSAudioDevice_ReturnCode UADInitialize(_THIS);
	static UMSAudioDevice_ReturnCode UADStart(_THIS);
	static UMSAudioDevice_ReturnCode UADStop(_THIS);
	static UMSAudioDevice_ReturnCode UADSetTimeFormat(_THIS, UMSAudioTypes_TimeFormat fmt );
	static UMSAudioDevice_ReturnCode UADWriteBuffSize(_THIS, long* buff_size );
	static UMSAudioDevice_ReturnCode UADWriteBuffRemain(_THIS, long* buff_size );
	static UMSAudioDevice_ReturnCode UADWriteBuffUsed(_THIS, long* buff_size );
	static UMSAudioDevice_ReturnCode UADSetDMABufferSize(_THIS, long bytes, long* bytes_ret );
	static UMSAudioDevice_ReturnCode UADSetVolume(_THIS, long volume );
	static UMSAudioDevice_ReturnCode UADSetBalance(_THIS, long balance );
	static UMSAudioDevice_ReturnCode UADSetChannels(_THIS, long channels );
	static UMSAudioDevice_ReturnCode UADPlayRemainingData(_THIS, boolean block );
	static UMSAudioDevice_ReturnCode UADEnableOutput(_THIS, string output, long* left_gain, long* right_gain);
	static UMSAudioDevice_ReturnCode UADWrite(_THIS, UMSAudioTypes_Buffer* buff, long samples, long* samples_written);

	/* Audio driver bootstrap functions */
	static int Audio_Available(void)
	{
	return 1;
	}

	static void Audio_DeleteDevice(_THIS)
	{
	if(this->hidden->playbuf._buffer) SDL_free(this->hidden->playbuf._buffer);
	if(this->hidden->fillbuf._buffer) SDL_free(this->hidden->fillbuf._buffer);
	_somFree( this->hidden->umsdev );
	SDL_free(this->hidden);
	SDL_free(this);
	}

	static SDL_AudioDevice *Audio_CreateDevice(int devindex)
	{
	SDL_AudioDevice *this;

	/*
	* Allocate and initialize management storage and private management
	* storage for this SDL-using library.
	*/
	this = (SDL_AudioDevice *)SDL_malloc(sizeof(SDL_AudioDevice));
	if ( this ) {
	SDL_memset(this, 0, (sizeof *this));
	this->hidden = (struct SDL_PrivateAudioData )SDL_malloc((sizeof this->hidden));
	}
	if ( (this == NULL) \|\| (this->hidden == NULL) ) {
	SDL_OutOfMemory();
	if ( this ) {
	SDL_free(this);
	}
	return(0);
	}
	SDL_memset(this->hidden, 0, (sizeof *this->hidden));
	#ifdef DEBUG_AUDIO
	fprintf(stderr, "Creating UMS Audio device\n");
	#endif

	/*
	* Calls for UMS env initialization and audio object construction.
	*/
	this->hidden->ev = somGetGlobalEnvironment();
	this->hidden->umsdev = UMSAudioDeviceNew();

	/*
	* Set the function pointers.
	*/
	this->OpenAudio = UMS_OpenAudio;
	this->WaitAudio = NULL; /* we do blocking output */
	this->PlayAudio = UMS_PlayAudio;
	this->GetAudioBuf = UMS_GetAudioBuf;
	this->CloseAudio = UMS_CloseAudio;
	this->free = Audio_DeleteDevice;

	#ifdef DEBUG_AUDIO
	fprintf(stderr, "done\n");
	#endif
	return this;
	}

	AudioBootStrap UMS_bootstrap = {
	UMS_DRIVER_NAME, "AIX UMS audio",
	Audio_Available, Audio_CreateDevice
	};

	static Uint8 *UMS_GetAudioBuf(_THIS)
	{
	#ifdef DEBUG_AUDIO
	fprintf(stderr, "enter UMS_GetAudioBuf\n");
	#endif
	return this->hidden->fillbuf._buffer;
	/*
	long bufSize;
	UMSAudioDevice_ReturnCode rc;

	rc = UADSetTimeFormat(this, UMSAudioTypes_Bytes );
	rc = UADWriteBuffSize(this, bufSize );
	*/
	}

	static void UMS_CloseAudio(_THIS)
	{
	UMSAudioDevice_ReturnCode rc;

	#ifdef DEBUG_AUDIO
	fprintf(stderr, "enter UMS_CloseAudio\n");
	#endif
	rc = UADPlayRemainingData(this, TRUE);
	rc = UADStop(this);
	rc = UADClose(this);
	}

	static void UMS_PlayAudio(_THIS)
	{
	UMSAudioDevice_ReturnCode rc;
	long samplesToWrite;
	long samplesWritten;
	UMSAudioTypes_Buffer swpbuf;

	#ifdef DEBUG_AUDIO
	fprintf(stderr, "enter UMS_PlayAudio\n");
	#endif
	samplesToWrite = this->hidden->playbuf._length/this->hidden->bytesPerSample;
	do
	{
	rc = UADWrite(this, &this->hidden->playbuf,
	samplesToWrite,
	&samplesWritten );
	samplesToWrite -= samplesWritten;

	/* rc values: UMSAudioDevice_Success
	* UMSAudioDevice_Failure
	* UMSAudioDevice_Preempted
	* UMSAudioDevice_Interrupted
	* UMSAudioDevice_DeviceError
	*/
	if ( rc == UMSAudioDevice_DeviceError ) {
	#ifdef DEBUG_AUDIO
	fprintf(stderr, "Returning from PlayAudio with devices error\n");
	#endif
	return;
	}
	}
	while(samplesToWrite>0);

	SDL_LockAudio();
	SDL_memcpy( &swpbuf, &this->hidden->playbuf, sizeof(UMSAudioTypes_Buffer) );
	SDL_memcpy( &this->hidden->playbuf, &this->hidden->fillbuf, sizeof(UMSAudioTypes_Buffer) );
	SDL_memcpy( &this->hidden->fillbuf, &swpbuf, sizeof(UMSAudioTypes_Buffer) );
	SDL_UnlockAudio();

	#ifdef DEBUG_AUDIO
	fprintf(stderr, "Wrote audio data and swapped buffer\n");
	#endif
	}

	#if 0
	// /* Set the DSP frequency */
	// value = spec->freq;
	// if ( ioctl(this->hidden->audio_fd, SOUND_PCM_WRITE_RATE, &value) < 0 ) {
	// SDL_SetError("Couldn't set audio frequency");
	// return(-1);
	// }
	// spec->freq = value;
	#endif

	static int UMS_OpenAudio(_THIS, SDL_AudioSpec *spec)
	{
	char* audiodev = "/dev/paud0";
	long lgain;
	long rgain;
	long outRate;
	long outBufSize;
	long bitsPerSample;
	long samplesPerSec;
	long success;
	Uint16 test_format;
	int frag_spec;
	UMSAudioDevice_ReturnCode rc;

	#ifdef DEBUG_AUDIO
	fprintf(stderr, "enter UMS_OpenAudio\n");
	#endif
	rc = UADOpen(this, audiodev,"PLAY", UMSAudioDevice_BlockingIO);
	if ( rc != UMSAudioDevice_Success ) {
	SDL_SetError("Couldn't open %s: %s", audiodev, strerror(errno));
	return -1;
	}

	rc = UADSetAudioFormatType(this, "PCM");

	success = 0;
	test_format = SDL_FirstAudioFormat(spec->format);
	do
	{
	#ifdef DEBUG_AUDIO
	fprintf(stderr, "Trying format 0x%4.4x\n", test_format);
	#endif
	switch ( test_format )
	{
	case AUDIO_U8:
	/* from the mac code: better ? */
	/* sample_bits = spec->size / spec->samples / spec->channels * 8; */
	success = 1;
	bitsPerSample = 8;
	rc = UADSetSampleRate(this, spec->freq << 16, &outRate );
	rc = UADSetByteOrder(this, "MSB"); /* irrelevant */
	rc = UADSetNumberFormat(this, "UNSIGNED");
	break;
	case AUDIO_S8:
	success = 1;
	bitsPerSample = 8;
	rc = UADSetSampleRate(this, spec->freq << 16, &outRate );
	rc = UADSetByteOrder(this, "MSB"); /* irrelevant */
	rc = UADSetNumberFormat(this, "SIGNED");
	break;
	case AUDIO_S16LSB:
	success = 1;
	bitsPerSample = 16;
	rc = UADSetSampleRate(this, spec->freq << 16, &outRate );
	rc = UADSetByteOrder(this, "LSB");
	rc = UADSetNumberFormat(this, "SIGNED");
	break;
	case AUDIO_S16MSB:
	success = 1;
	bitsPerSample = 16;
	rc = UADSetSampleRate(this, spec->freq << 16, &outRate );
	rc = UADSetByteOrder(this, "MSB");
	rc = UADSetNumberFormat(this, "SIGNED");
	break;
	case AUDIO_U16LSB:
	success = 1;
	bitsPerSample = 16;
	rc = UADSetSampleRate(this, spec->freq << 16, &outRate );
	rc = UADSetByteOrder(this, "LSB");
	rc = UADSetNumberFormat(this, "UNSIGNED");
	break;
	case AUDIO_U16MSB:
	success = 1;
	bitsPerSample = 16;
	rc = UADSetSampleRate(this, spec->freq << 16, &outRate );
	rc = UADSetByteOrder(this, "MSB");
	rc = UADSetNumberFormat(this, "UNSIGNED");
	break;
	default:
	break;
	}
	if ( ! success ) {
	test_format = SDL_NextAudioFormat();
	}
	}
	while ( ! success && test_format );

	if ( success == 0 ) {
	SDL_SetError("Couldn't find any hardware audio formats");
	return -1;
	}

	spec->format = test_format;

	for ( frag_spec = 0; (0x01<<frag_spec) < spec->size; ++frag_spec );
	if ( (0x01<<frag_spec) != spec->size ) {
	SDL_SetError("Fragment size must be a power of two");
	return -1;
	}
	if ( frag_spec > 2048 ) frag_spec = 2048;

	this->hidden->bytesPerSample = (bitsPerSample / 8) * spec->channels;
	samplesPerSec = this->hidden->bytesPerSample * outRate;

	this->hidden->playbuf._length = 0;
	this->hidden->playbuf._maximum = spec->size;
	this->hidden->playbuf._buffer = (unsigned char*)SDL_malloc(spec->size);
	this->hidden->fillbuf._length = 0;
	this->hidden->fillbuf._maximum = spec->size;
	this->hidden->fillbuf._buffer = (unsigned char*)SDL_malloc(spec->size);

	rc = UADSetBitsPerSample(this, bitsPerSample );
	rc = UADSetDMABufferSize(this, frag_spec, &outBufSize );
	rc = UADSetChannels(this, spec->channels); /* functions reduces to mono or stereo */

	lgain = 100; /maximum left input gain/
	rgain = 100; /maimum right input gain/
	rc = UADEnableOutput(this, "LINE_OUT",&lgain,&rgain);
	rc = UADInitialize(this);
	rc = UADStart(this);
	rc = UADSetVolume(this, 100);
	rc = UADSetBalance(this, 0);

	/* We're ready to rock and roll. :-) */
	return 0;
	}


	static UMSAudioDevice_ReturnCode UADGetBitsPerSample(_THIS, long* bits)
	{
	return UMSAudioDevice_get_bits_per_sample( this->hidden->umsdev,
	this->hidden->ev,
	bits );
	}

	static UMSAudioDevice_ReturnCode UADSetBitsPerSample(_THIS, long bits)
	{
	return UMSAudioDevice_set_bits_per_sample( this->hidden->umsdev,
	this->hidden->ev,
	bits );
	}

	static UMSAudioDevice_ReturnCode UADSetSampleRate(_THIS, long rate, long* set_rate)
	{
	/* from the mac code: sample rate = spec->freq << 16; */
	return UMSAudioDevice_set_sample_rate( this->hidden->umsdev,
	this->hidden->ev,
	rate,
	set_rate );
	}

	static UMSAudioDevice_ReturnCode UADSetByteOrder(_THIS, string byte_order)
	{
	return UMSAudioDevice_set_byte_order( this->hidden->umsdev,
	this->hidden->ev,
	byte_order );
	}

	static UMSAudioDevice_ReturnCode UADSetAudioFormatType(_THIS, string fmt)
	{
	/* possible PCM, A_LAW or MU_LAW */
	return UMSAudioDevice_set_audio_format_type( this->hidden->umsdev,
	this->hidden->ev,
	fmt );
	}

	static UMSAudioDevice_ReturnCode UADSetNumberFormat(_THIS, string fmt)
	{
	/* possible SIGNED, UNSIGNED, or TWOS_COMPLEMENT */
	return UMSAudioDevice_set_number_format( this->hidden->umsdev,
	this->hidden->ev,
	fmt );
	}

	static UMSAudioDevice_ReturnCode UADInitialize(_THIS)
	{
	return UMSAudioDevice_initialize( this->hidden->umsdev,
	this->hidden->ev );
	}

	static UMSAudioDevice_ReturnCode UADStart(_THIS)
	{
	return UMSAudioDevice_start( this->hidden->umsdev,
	this->hidden->ev );
	}

	static UMSAudioDevice_ReturnCode UADSetTimeFormat(_THIS, UMSAudioTypes_TimeFormat fmt )
	{
	/*
	* Switches the time format to the new format, immediately.
	* possible UMSAudioTypes_Msecs, UMSAudioTypes_Bytes or UMSAudioTypes_Samples
	*/
	return UMSAudioDevice_set_time_format( this->hidden->umsdev,
	this->hidden->ev,
	fmt );
	}

	static UMSAudioDevice_ReturnCode UADWriteBuffSize(_THIS, long* buff_size )
	{
	/*
	* returns write buffer size in the current time format
	*/
	return UMSAudioDevice_write_buff_size( this->hidden->umsdev,
	this->hidden->ev,
	buff_size );
	}

	static UMSAudioDevice_ReturnCode UADWriteBuffRemain(_THIS, long* buff_size )
	{
	/*
	* returns amount of available space in the write buffer
	* in the current time format
	*/
	return UMSAudioDevice_write_buff_remain( this->hidden->umsdev,
	this->hidden->ev,
	buff_size );
	}

	static UMSAudioDevice_ReturnCode UADWriteBuffUsed(_THIS, long* buff_size )
	{
	/*
	* returns amount of filled space in the write buffer
	* in the current time format
	*/
	return UMSAudioDevice_write_buff_used( this->hidden->umsdev,
	this->hidden->ev,
	buff_size );
	}

	static UMSAudioDevice_ReturnCode UADSetDMABufferSize(_THIS, long bytes, long* bytes_ret )
	{
	/*
	* Request a new DMA buffer size, maximum requested size 2048.
	* Takes effect with next initialize() call.
	* Devices may or may not support DMA.
	*/
	return UMSAudioDevice_set_DMA_buffer_size( this->hidden->umsdev,
	this->hidden->ev,
	bytes,
	bytes_ret );
	}

	static UMSAudioDevice_ReturnCode UADSetVolume(_THIS, long volume )
	{
	/*
	* Set the volume.
	* Takes effect immediately.
	*/
	return UMSAudioDevice_set_volume( this->hidden->umsdev,
	this->hidden->ev,
	volume );
	}

	static UMSAudioDevice_ReturnCode UADSetBalance(_THIS, long balance )
	{
	/*
	* Set the balance.
	* Takes effect immediately.
	*/
	return UMSAudioDevice_set_balance( this->hidden->umsdev,
	this->hidden->ev,
	balance );
	}

	static UMSAudioDevice_ReturnCode UADSetChannels(_THIS, long channels )
	{
	/*
	* Set mono or stereo.
	* Takes effect with next initialize() call.
	*/
	if ( channels != 1 ) channels = 2;
	return UMSAudioDevice_set_number_of_channels( this->hidden->umsdev,
	this->hidden->ev,
	channels );
	}

	static UMSAudioDevice_ReturnCode UADOpen(_THIS, string device, string mode, long flags)
	{
	return UMSAudioDevice_open( this->hidden->umsdev,
	this->hidden->ev,
	device,
	mode,
	flags );
	}

	static UMSAudioDevice_ReturnCode UADWrite(_THIS, UMSAudioTypes_Buffer* buff,
	long samples,
	long* samples_written)
	{
	return UMSAudioDevice_write( this->hidden->umsdev,
	this->hidden->ev,
	buff,
	samples,
	samples_written );
	}

	static UMSAudioDevice_ReturnCode UADPlayRemainingData(_THIS, boolean block )
	{
	return UMSAudioDevice_play_remaining_data( this->hidden->umsdev,
	this->hidden->ev,
	block);
	}

	static UMSAudioDevice_ReturnCode UADStop(_THIS)
	{
	return UMSAudioDevice_stop( this->hidden->umsdev,
	this->hidden->ev );
	}

	static UMSAudioDevice_ReturnCode UADClose(_THIS)
	{
	return UMSAudioDevice_close( this->hidden->umsdev,
	this->hidden->ev );
	}

	static UMSAudioDevice_ReturnCode UADEnableOutput(_THIS, string output, long* left_gain, long* right_gain)
	{
	return UMSAudioDevice_enable_output( this->hidden->umsdev,
	this->hidden->ev,
	output,
	left_gain,
	right_gain );
	}