Mercurial > sdl-ios-xcode
view src/audio/dart/SDL_dart.c @ 4001:6831b8723a85 SDL-1.2
Don't initialize the audio buffer passed to the application's audio callback,
since they are expected to entirely fill it with data or silence.
For legacy apps that might expect the buffer to already have silence and thus
may not fill the buffer in the callback, there's an environment variable to
expose the old behaviour.
Fixes Bugzilla #416.
author | Ryan C. Gordon <icculus@icculus.org> |
---|---|
date | Thu, 05 Jul 2007 02:24:36 +0000 |
parents | 5b5e549382b3 |
children | a1b03ba2fcd0 |
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line source
/* 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 Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" /* Allow access to a raw mixing buffer */ #include "SDL_timer.h" #include "SDL_audio.h" #include "../SDL_audio_c.h" #include "SDL_dart.h" // Buffer states: #define BUFFER_EMPTY 0 #define BUFFER_USED 1 typedef struct _tMixBufferDesc { int iBufferUsage; // BUFFER_EMPTY or BUFFER_USED SDL_AudioDevice *pSDLAudioDevice; } tMixBufferDesc, *pMixBufferDesc; //--------------------------------------------------------------------- // DARTEventFunc // // This function is called by DART, when an event occures, like end of // playback of a buffer, etc... //--------------------------------------------------------------------- LONG APIENTRY DARTEventFunc(ULONG ulStatus, PMCI_MIX_BUFFER pBuffer, ULONG ulFlags) { if (ulFlags && MIX_WRITE_COMPLETE) { // Playback of buffer completed! // Get pointer to buffer description pMixBufferDesc pBufDesc; if (pBuffer) { pBufDesc = (pMixBufferDesc) (*pBuffer).ulUserParm; if (pBufDesc) { SDL_AudioDevice *pSDLAudioDevice = pBufDesc->pSDLAudioDevice; // Set the buffer to be empty pBufDesc->iBufferUsage = BUFFER_EMPTY; // And notify DART feeder thread that it will have to work a bit. if (pSDLAudioDevice) DosPostEventSem(pSDLAudioDevice->hidden->hevAudioBufferPlayed); } } } return TRUE; } int DART_OpenAudio(_THIS, SDL_AudioSpec *spec) { Uint16 test_format = SDL_FirstAudioFormat(spec->format); int valid_datatype = 0; MCI_AMP_OPEN_PARMS AmpOpenParms; MCI_GENERIC_PARMS GenericParms; int iDeviceOrd = 0; // Default device to be used int bOpenShared = 1; // Try opening it shared int iBits = 16; // Default is 16 bits signed int iFreq = 44100; // Default is 44KHz int iChannels = 2; // Default is 2 channels (Stereo) int iNumBufs = 2; // Number of audio buffers: 2 int iBufSize; int iOpenMode; int iSilence; int rc; // First thing is to try to open a given DART device! SDL_memset(&AmpOpenParms, 0, sizeof(MCI_AMP_OPEN_PARMS)); // pszDeviceType should contain the device type in low word, and device ordinal in high word! AmpOpenParms.pszDeviceType = (PSZ) (MCI_DEVTYPE_AUDIO_AMPMIX | (iDeviceOrd << 16)); iOpenMode = MCI_WAIT | MCI_OPEN_TYPE_ID; if (bOpenShared) iOpenMode |= MCI_OPEN_SHAREABLE; rc = mciSendCommand( 0, MCI_OPEN, iOpenMode, (PVOID) &AmpOpenParms, 0); if (rc!=MCIERR_SUCCESS) // No audio available?? return (-1); // Save the device ID we got from DART! // We will use this in the next calls! iDeviceOrd = AmpOpenParms.usDeviceID; // Determine the audio parameters from the AudioSpec if (spec->channels > 2) spec->channels = 2; // !!! FIXME: more than stereo support in OS/2? while ((!valid_datatype) && (test_format)) { spec->format = test_format; valid_datatype = 1; switch (test_format) { case AUDIO_U8: // Unsigned 8 bit audio data iSilence = 0x80; iBits = 8; break; case AUDIO_S16LSB: // Signed 16 bit audio data iSilence = 0x00; iBits = 16; break; default: valid_datatype = 0; test_format = SDL_NextAudioFormat(); break; } } if (!valid_datatype) { // shouldn't happen, but just in case... // Close DART, and exit with error code! mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("Unsupported audio format"); return (-1); } iFreq = spec->freq; iChannels = spec->channels; /* Update the fragment size as size in bytes */ SDL_CalculateAudioSpec(spec); iBufSize = spec->size; // Now query this device if it supports the given freq/bits/channels! SDL_memset(&(_this->hidden->MixSetupParms), 0, sizeof(MCI_MIXSETUP_PARMS)); _this->hidden->MixSetupParms.ulBitsPerSample = iBits; _this->hidden->MixSetupParms.ulFormatTag = MCI_WAVE_FORMAT_PCM; _this->hidden->MixSetupParms.ulSamplesPerSec = iFreq; _this->hidden->MixSetupParms.ulChannels = iChannels; _this->hidden->MixSetupParms.ulFormatMode = MCI_PLAY; _this->hidden->MixSetupParms.ulDeviceType = MCI_DEVTYPE_WAVEFORM_AUDIO; _this->hidden->MixSetupParms.pmixEvent = DARTEventFunc; rc = mciSendCommand (iDeviceOrd, MCI_MIXSETUP, MCI_WAIT | MCI_MIXSETUP_QUERYMODE, &(_this->hidden->MixSetupParms), 0); if (rc!=MCIERR_SUCCESS) { // The device cannot handle this format! // Close DART, and exit with error code! mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("Audio device doesn't support requested audio format"); return(-1); } // The device can handle this format, so initialize! rc = mciSendCommand(iDeviceOrd, MCI_MIXSETUP, MCI_WAIT | MCI_MIXSETUP_INIT, &(_this->hidden->MixSetupParms), 0); if (rc!=MCIERR_SUCCESS) { // The device could not be opened! // Close DART, and exit with error code! mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("Audio device could not be set up"); return(-1); } // Ok, the device is initialized. // Now we should allocate buffers. For this, we need a place where // the buffer descriptors will be: _this->hidden->pMixBuffers = (MCI_MIX_BUFFER *) SDL_malloc(sizeof(MCI_MIX_BUFFER)*iNumBufs); if (!(_this->hidden->pMixBuffers)) { // Not enough memory! // Close DART, and exit with error code! mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("Not enough memory for audio buffer descriptors"); return(-1); } // Now that we have the place for buffer list, we can ask DART for the // buffers! _this->hidden->BufferParms.ulNumBuffers = iNumBufs; // Number of buffers _this->hidden->BufferParms.ulBufferSize = iBufSize; // each with this size _this->hidden->BufferParms.pBufList = _this->hidden->pMixBuffers; // getting descriptorts into this list // Allocate buffers! rc = mciSendCommand(iDeviceOrd, MCI_BUFFER, MCI_WAIT | MCI_ALLOCATE_MEMORY, &(_this->hidden->BufferParms), 0); if ((rc!=MCIERR_SUCCESS) || (iNumBufs != _this->hidden->BufferParms.ulNumBuffers) || (_this->hidden->BufferParms.ulBufferSize==0)) { // Could not allocate memory! // Close DART, and exit with error code! SDL_free(_this->hidden->pMixBuffers); _this->hidden->pMixBuffers = NULL; mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("DART could not allocate buffers"); return(-1); } // Ok, we have all the buffers allocated, let's mark them! { int i; for (i=0; i<iNumBufs; i++) { pMixBufferDesc pBufferDesc = (pMixBufferDesc) SDL_malloc(sizeof(tMixBufferDesc));; // Check if this buffer was really allocated by DART if ((!(_this->hidden->pMixBuffers[i].pBuffer)) || (!pBufferDesc)) { // Wrong buffer! // Close DART, and exit with error code! // Free buffer descriptions { int j; for (j=0; j<i; j++) SDL_free((void *)(_this->hidden->pMixBuffers[j].ulUserParm)); } // and cleanup mciSendCommand(iDeviceOrd, MCI_BUFFER, MCI_WAIT | MCI_DEALLOCATE_MEMORY, &(_this->hidden->BufferParms), 0); SDL_free(_this->hidden->pMixBuffers); _this->hidden->pMixBuffers = NULL; mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("Error at internal buffer check"); return(-1); } pBufferDesc->iBufferUsage = BUFFER_EMPTY; pBufferDesc->pSDLAudioDevice = _this; _this->hidden->pMixBuffers[i].ulBufferLength = _this->hidden->BufferParms.ulBufferSize; _this->hidden->pMixBuffers[i].ulUserParm = (ULONG) pBufferDesc; // User parameter: Description of buffer _this->hidden->pMixBuffers[i].ulFlags = 0; // Some stuff should be flagged here for DART, like end of // audio data, but as we will continously send // audio data, there will be no end.:) SDL_memset(_this->hidden->pMixBuffers[i].pBuffer, iSilence, iBufSize); } } _this->hidden->iNextFreeBuffer = 0; _this->hidden->iLastPlayedBuf = -1; // Create event semaphore if (DosCreateEventSem(NULL, &(_this->hidden->hevAudioBufferPlayed), 0, FALSE)!=NO_ERROR) { // Could not create event semaphore! { int i; for (i=0; i<iNumBufs; i++) SDL_free((void *)(_this->hidden->pMixBuffers[i].ulUserParm)); } mciSendCommand(iDeviceOrd, MCI_BUFFER, MCI_WAIT | MCI_DEALLOCATE_MEMORY, &(_this->hidden->BufferParms), 0); SDL_free(_this->hidden->pMixBuffers); _this->hidden->pMixBuffers = NULL; mciSendCommand(iDeviceOrd, MCI_CLOSE, MCI_WAIT, &GenericParms, 0); SDL_SetError("Could not create event semaphore"); return(-1); } // Store the new settings in global variables _this->hidden->iCurrDeviceOrd = iDeviceOrd; _this->hidden->iCurrFreq = iFreq; _this->hidden->iCurrBits = iBits; _this->hidden->iCurrChannels = iChannels; _this->hidden->iCurrNumBufs = iNumBufs; _this->hidden->iCurrBufSize = iBufSize; return (0); } void DART_ThreadInit(_THIS) { return; } /* This function waits until it is possible to write a full sound buffer */ void DART_WaitAudio(_THIS) { int i; pMixBufferDesc pBufDesc; ULONG ulPostCount; DosResetEventSem(_this->hidden->hevAudioBufferPlayed, &ulPostCount); // If there is already an empty buffer, then return now! for (i=0; i<_this->hidden->iCurrNumBufs; i++) { pBufDesc = (pMixBufferDesc) _this->hidden->pMixBuffers[i].ulUserParm; if (pBufDesc->iBufferUsage == BUFFER_EMPTY) return; } // If there is no empty buffer, wait for one to be empty! DosWaitEventSem(_this->hidden->hevAudioBufferPlayed, 1000); // Wait max 1 sec!!! Important! return; } void DART_PlayAudio(_THIS) { int iFreeBuf = _this->hidden->iNextFreeBuffer; pMixBufferDesc pBufDesc; pBufDesc = (pMixBufferDesc) _this->hidden->pMixBuffers[iFreeBuf].ulUserParm; pBufDesc->iBufferUsage = BUFFER_USED; // Send it to DART to be queued _this->hidden->MixSetupParms.pmixWrite(_this->hidden->MixSetupParms.ulMixHandle, &(_this->hidden->pMixBuffers[iFreeBuf]), 1); _this->hidden->iLastPlayedBuf = iFreeBuf; iFreeBuf = (iFreeBuf+1) % _this->hidden->iCurrNumBufs; _this->hidden->iNextFreeBuffer = iFreeBuf; } Uint8 *DART_GetAudioBuf(_THIS) { int iFreeBuf; Uint8 *pResult; pMixBufferDesc pBufDesc; if (_this) { if (_this->hidden) { iFreeBuf = _this->hidden->iNextFreeBuffer; pBufDesc = (pMixBufferDesc) _this->hidden->pMixBuffers[iFreeBuf].ulUserParm; if (pBufDesc) { if (pBufDesc->iBufferUsage == BUFFER_EMPTY) { pResult = _this->hidden->pMixBuffers[iFreeBuf].pBuffer; return pResult; } } else printf("[DART_GetAudioBuf] : ERROR! pBufDesc = %p\n", pBufDesc); } else printf("[DART_GetAudioBuf] : ERROR! _this->hidden = %p\n", _this->hidden); } else printf("[DART_GetAudioBuf] : ERROR! _this = %p\n", _this); return NULL; } void DART_WaitDone(_THIS) { pMixBufferDesc pBufDesc; ULONG ulPostCount; APIRET rc; pBufDesc = (pMixBufferDesc) _this->hidden->pMixBuffers[_this->hidden->iLastPlayedBuf].ulUserParm; rc = NO_ERROR; while ((pBufDesc->iBufferUsage != BUFFER_EMPTY) && (rc==NO_ERROR)) { DosResetEventSem(_this->hidden->hevAudioBufferPlayed, &ulPostCount); rc = DosWaitEventSem(_this->hidden->hevAudioBufferPlayed, 1000); // 1 sec timeout! Important! } } void DART_CloseAudio(_THIS) { MCI_GENERIC_PARMS GenericParms; int rc; // Stop DART playback rc = mciSendCommand(_this->hidden->iCurrDeviceOrd, MCI_STOP, MCI_WAIT, &GenericParms, 0); if (rc!=MCIERR_SUCCESS) { #ifdef SFX_DEBUG_BUILD printf("Could not stop DART playback!\n"); fflush(stdout); #endif } // Close event semaphore DosCloseEventSem(_this->hidden->hevAudioBufferPlayed); // Free memory of buffer descriptions { int i; for (i=0; i<_this->hidden->iCurrNumBufs; i++) SDL_free((void *)(_this->hidden->pMixBuffers[i].ulUserParm)); } // Deallocate buffers rc = mciSendCommand(_this->hidden->iCurrDeviceOrd, MCI_BUFFER, MCI_WAIT | MCI_DEALLOCATE_MEMORY, &(_this->hidden->BufferParms), 0); // Free bufferlist SDL_free(_this->hidden->pMixBuffers); _this->hidden->pMixBuffers = NULL; // Close dart rc = mciSendCommand(_this->hidden->iCurrDeviceOrd, MCI_CLOSE, MCI_WAIT, &(GenericParms), 0); } /* Audio driver bootstrap functions */ int Audio_Available(void) { return(1); } void Audio_DeleteDevice(SDL_AudioDevice *device) { SDL_free(device->hidden); SDL_free(device); } SDL_AudioDevice *Audio_CreateDevice(int devindex) { SDL_AudioDevice *this; /* Initialize all variables that we clean on shutdown */ 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)); /* Set the function pointers */ this->OpenAudio = DART_OpenAudio; this->ThreadInit = DART_ThreadInit; this->WaitAudio = DART_WaitAudio; this->PlayAudio = DART_PlayAudio; this->GetAudioBuf = DART_GetAudioBuf; this->WaitDone = DART_WaitDone; this->CloseAudio = DART_CloseAudio; this->free = Audio_DeleteDevice; return this; } AudioBootStrap DART_bootstrap = { "dart", "OS/2 Direct Audio RouTines (DART)", Audio_Available, Audio_CreateDevice };