void RDHPIRecordStream::tickClock()
{
HPI_InStreamGetInfoEx(hpi_subsys,hpi_stream,
&state,&buffer_size,&data_recorded,
&samples_recorded,&reserved);
if((!record_started)&&(is_recording)) {
if(samples_recorded>0) {
if(record_length>0) {
length_timer->start(record_length,true);
}
emit recordStart();
emit stateChanged(card_number,stream_number,4); // RecordStarted
if(debug) {
printf("RDHPIRecordStream: emitted recordStart()\n");
printf("RDHPIRecordStream: emitted stateChanged(%d,%d,RDHPIRecordStream::RecordStarted)\n",card_number,stream_number);
}
record_started=true;
}
}
while(data_recorded>fragment_size) {
#if HPI_VER > 0x00030500
HPI_InStreamReadBuf(hpi_subsys,hpi_stream,pdata,fragment_size);
#else
HPI_InStreamRead(hpi_subsys,hpi_stream,&hpi_data);
#endif
if(is_recording) {
writeWave(pdata,fragment_size);
}
HPI_InStreamGetInfoEx(hpi_subsys,hpi_stream,
&state,&buffer_size,&data_recorded,
&samples_recorded,&reserved);
}
if(state==HPI_STATE_STOPPED) {
#if HPI_VER > 0x00030500
HPI_InStreamReadBuf(hpi_subsys,hpi_stream,pdata,data_recorded);
#else
HPI_DataCreate(&hpi_data,&format,pdata,data_recorded);
HPI_InStreamRead(hpi_subsys,hpi_stream,&hpi_data);
#endif
if(is_recording) {
writeWave(pdata,data_recorded);
}
}
emit position(samples_recorded);
if(debug) {
printf("RDHPIRecordStream: emitted position(%u)\n",
(unsigned)samples_recorded);
}
}
void PlayStream::tickClock()
{
static int count=0;
uint16_t hpi_err;
char hpi_text[100];
int n;
HPICall(HPI_OutStreamGetInfoEx(NULL,hpi_stream,
&state,&buffer_size,&data_to_play,
&samples_played,&reserved));
if(!stopping) {
while((buffer_size-data_to_play)>=fragment_size) {
n=readWave(pdata,fragment_size);
if((n<=0)||(((uint32_t)n)<fragment_size)) {
// End of file
#if HPI_VER > 0x00030500
if((hpi_err=HPI_OutStreamWriteBuf(NULL,hpi_stream,
pdata,n,&format))!=0) {
HPI_GetErrorText(hpi_err,hpi_text);
fprintf(stderr,"*** HPI Error: %s ***\n",hpi_text);
}
#else
HPI_DataCreate(&hpi_data,&format,pdata,n);
if((hpi_err=HPI_OutStreamWrite(NULL,hpi_stream,
&hpi_data))!=0) {
HPI_GetErrorText(hpi_err,hpi_text);
fprintf(stderr,"*** HPI Error: %s ***\n",hpi_text);
}
#endif
left_to_write=0;
stopping=true;
return;
}
left_to_write-=n;
#if HPI_VER > 0x00030500
HPICall(HPI_OutStreamWriteBuf(NULL,hpi_stream,pdata,n,&format));
#else
HPICall(HPI_DataCreate(&hpi_data,&format,pdata,n));
HPICall(HPI_OutStreamWrite(NULL,hpi_stream,&hpi_data));
#endif
HPICall(HPI_OutStreamGetInfoEx(NULL,hpi_stream,
&state,&buffer_size,&data_to_play,
&samples_played,&reserved));
}
}
else {
if(state==HPI_STATE_DRAINED) {
HPICall(HPI_OutStreamStop(NULL,hpi_stream));
HPICall(HPI_OutStreamClose(NULL,hpi_stream));
HPICall(HPI_AdapterClose(NULL,card_number));
clock->stop();
playing=false;
seekWave(0,SEEK_SET);
HPICall(HPI_OutStreamReset(NULL,hpi_stream));
samples_pending=0;
samples_skipped=0;
stream_state=PlayStream::Stopped;
emit position(0);
emit isStopped(true);
emit stopped();
emit stateChanged(card_number,stream_number,(int)stream_state);
return;
}
}
if(count++==2) {
count=0;
emit position(samples_played+samples_skipped);
}
}
bool PlayStream::play()
{
#ifdef RPLAYSTREAM_SHOW_SLOTS
printf("play() -- Card: %d Stream: %d\n",card_number,stream_number);
#endif // RPLAYSTREAM_SHOW_SLOTS
if(!is_open) {
printf("FAIL1\n");
return false;
}
if((!playing)&&(!is_paused)) {
HPICall(HPI_OutStreamSetTimeScale(NULL,hpi_stream,
(uint16_t)((1000.0/(double)play_speed)*
HPI_OSTREAM_TIMESCALE_UNITS)));
if(!HPICall(HPI_OutStreamGetInfoEx(NULL,hpi_stream,
&state,&buffer_size,&data_to_play,
&samples_played,&reserved))) {
printf("FAIL3\n");
return false;
}
fragment_size=buffer_size/4;
if(fragment_size>MAX_FRAGMENT_SIZE) {
fragment_size=MAX_FRAGMENT_SIZE;
}
if(pdata!=NULL) {
delete pdata;
}
pdata=(uint8_t *)malloc(fragment_size);
if(pdata==NULL) {
printf("FAIL4\n");
return false;
}
switch(getFormatTag()) {
case WAVE_FORMAT_PCM:
case WAVE_FORMAT_VORBIS:
switch(getBitsPerSample()) {
case 8:
HPICall(HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM8_UNSIGNED,
getSamplesPerSec(),0,0));
break;
case 16:
HPICall(HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM16_SIGNED,
getSamplesPerSec(),0,0));
break;
case 32:
HPICall(HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM32_SIGNED,
getSamplesPerSec(),0,0));
break;
default:
HPICall(HPI_AdapterClose(NULL,card_number));
return false;
break;
}
break;
case WAVE_FORMAT_MPEG:
switch(getHeadLayer()) {
case 1:
HPICall(HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_MPEG_L1,getSamplesPerSec(),
getHeadBitRate(),getHeadFlags()));
break;
case 2:
HPICall(HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_MPEG_L2,getSamplesPerSec(),
getHeadBitRate(),getHeadFlags()));
break;
case 3:
HPICall(HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_MPEG_L3,getSamplesPerSec(),
getHeadBitRate(),getHeadFlags()));
break;
default:
HPI_AdapterClose(NULL,card_number);
return false;
}
break;
default:
return false;
}
#if HPI_VER < 0x00030500
if(HPI_DataCreate(&hpi_data,&format,pdata,fragment_size)!=0) {
return false;
}
#endif
}
if(!is_paused) {
memset(pdata,0,fragment_size);
left_to_write=getDataLength()-seekWave(0,SEEK_CUR);
if(left_to_write<fragment_size) {
read_bytes = left_to_write;
left_to_write=0;
stopping=true;
}
else {
read_bytes=fragment_size;
left_to_write-=fragment_size;
}
readWave(pdata,read_bytes);
#if HPI_VER > 0x00030500
HPICall(HPI_OutStreamWriteBuf(NULL,hpi_stream,pdata,read_bytes,&format));
#else
HPICall(HPI_DataCreate(&hpi_data,&format,pdata,read_bytes));
HPICall(HPI_OutStreamWrite(NULL,hpi_stream,&hpi_data));
#endif
if(HPI_OutStreamStart(NULL,hpi_stream)!=0) {
printf("FAIL11\n");
return false;
}
clock->start(50);
clock->start(FRAGMENT_TIME);
playing=true;
is_paused=false;
stopping=false;
if(play_length>0) {
play_timer->start(play_length,true);
start_time=QTime::currentTime();
}
stream_state=PlayStream::Playing;
if(!restart_transport) {
emit isStopped(false);
emit played();
emit stateChanged(card_number,stream_number,(int)stream_state);
}
}
if((!playing)&(is_paused|repositioned)) {
HPICall(HPI_OutStreamStart(NULL,hpi_stream));
clock->start(FRAGMENT_TIME);
playing=true;
stopping=false;
is_paused=false;
stream_state=PlayStream::Playing;
if(!restart_transport) {
emit isStopped(false);
emit played();
emit stateChanged(card_number,stream_number,(int)stream_state);
}
}
return true;
}
bool RDHPIRecordStream::recordReady()
{
HW16 hpi_error=0;
char hpi_text[200];
if(debug) {
printf("RDHPIRecordStream: received recordReady()\n");
}
if(!is_open) {
return false;
}
if((!is_recording)&&(!is_paused)) {
resetWave();
if(HPI_InStreamGetInfoEx(hpi_subsys,hpi_stream,
&state,&buffer_size,&data_recorded,
&samples_recorded,&reserved)!=0) {
if(debug) {
printf("RDHPIRecordStream: HPI_InStreamGetInfoEx() failed\n");
}
return false;
}
fragment_size=buffer_size/4;
if(fragment_size>192000) { // ALSA Compatibility Limitation
fragment_size=192000;
}
fragment_time=(1000*fragment_size)/(getAvgBytesPerSec());
if(pdata!=NULL) {
delete pdata;
}
pdata=(HW8 *)malloc(fragment_size);
if(pdata==NULL) {
if(debug) {
printf("RDHPIRecordStream: couldn't allocate buffer\n");
}
return false;
}
switch(getFormatTag()) {
case WAVE_FORMAT_PCM:
if(debug) {
printf("RDHPIRecordStream: using PCM%d format\n",
getBitsPerSample());
}
switch(getBitsPerSample()) {
case 8:
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM8_UNSIGNED,getSamplesPerSec(),
0,0);
break;
case 16:
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM16_SIGNED,getSamplesPerSec(),
0,0);
break;
case 32:
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM32_SIGNED,getSamplesPerSec(),
0,0);
break;
default:
if(debug) {
printf("RDHPIRecordStream: unsupported sample size\n");
}
return false;
}
break;
case WAVE_FORMAT_MPEG:
if(debug) {
printf("RDHPIRecordStream: using MPEG-1 Layer %d\n",getHeadLayer());
}
switch(getHeadLayer()) {
case 1:
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_MPEG_L1,getSamplesPerSec(),
getHeadBitRate(),getHeadFlags());
break;
case 2:
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_MPEG_L2,getSamplesPerSec(),
getHeadBitRate(),getHeadFlags());
break;
case 3:
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_MPEG_L3,getSamplesPerSec(),
getHeadBitRate(),getHeadFlags());
break;
default:
HPI_AdapterClose(hpi_subsys,card_number);
if(debug) {
printf("RDHPIRecordStream: invalid MPEG-1 layer\n");
}
return false;
}
if(getMextChunk()) {
setMextHomogenous(true);
setMextPaddingUsed(false);
setMextHackedBitRate(true);
setMextFreeFormat(false);
setMextFrameSize(144*getHeadBitRate()/getSamplesPerSec());
setMextAncillaryLength(5);
setMextLeftEnergyPresent(true);
if(getChannels()>1) {
setMextRightEnergyPresent(true);
}
else {
setMextRightEnergyPresent(false);
}
setMextPrivateDataPresent(false);
}
break;
case WAVE_FORMAT_VORBIS:
if(debug) {
printf("RDHPIRecordStream: using OggVorbis\n");
}
HPI_FormatCreate(&format,getChannels(),
HPI_FORMAT_PCM16_SIGNED,getSamplesPerSec(),
0,0);
break;
default:
if(debug) {
printf("RDHPIRecordStream: invalid format tag\n");
}
return false;
break;
}
if((hpi_error=HPI_InStreamQueryFormat(hpi_subsys,hpi_stream,
&format))!=0) {
if(debug) {
HPI_GetErrorText(hpi_error,hpi_text);
printf("Num: %d\n",hpi_error);
printf("RDHPIRecordStream: %s\n",hpi_text);
}
return false;
}
}
#if HPI_VER < 0x00030500
HPI_DataCreate(&hpi_data,&format,pdata,fragment_size);
#endif
HPI_InStreamSetFormat(hpi_subsys,hpi_stream,&format);
HPI_InStreamStart(hpi_subsys,hpi_stream);
// clock->start(2*fragment_time/3);
clock->start(100);
is_ready=true;
is_recording=false;
is_paused=false;
stopping=false;
emit isStopped(false);
emit ready();
emit stateChanged(card_number,stream_number,1); // RecordReady
if(debug) {
printf("RDHPIRecordStream: emitted isStopped(false)\n");
printf("RDHPIRecordStream: emitted ready()\n");
printf("RDHPIRecordStream: emitted stateChanged(%d,%d,RDHPIRecordStream::RecordReady)\n",card_number,stream_number);
}
return true;
}
