public void ForcePS()
{
EventArgs e = EventArgs.Empty;
if (!autoON)
{
puresignal.SetPSControl(txachannel, 1, 0, 0, 0);
}
else
{
puresignal.SetPSControl(txachannel, 0, 0, 1, 0);
}
if (!ttgenON)
WDSP.SetTXAPostGenRun(txachannel, 0); }
private void create_rxa()
{
// JanusAudio setup
NetworkIO.SetDDCRate(fwid, 48000); // set receivers samplerate to 48K
NetworkIO.EnableRx(fwid, 1); // enable the receiver
// ChannelMaster setup
cmaster.SetXcmInrate(stid, 48000); // tell ChannelMaster the sample rate is 48K
cmaster.SetRunPanadapter(stid, true); // turn off the panadapter computation
cmaster.SetAAudioMixState((void *)0, 0, chid, true); // add main-rcvr to mixer state
cmaster.SetAAudioMixWhat((void *)0, 0, chid, true); // add main-rcvr to mixer what
// WDSP setup
WDSP.SetChannelState(chid + 0, 1, 0); // main rcvr ON
WDSP.SetChannelState(chid + 1, 0, 0); // sub-rcvr OFF
}
private void timer1_Tick(object sender, EventArgs e)
{
if (psform.DismissAmpv)
{
Common.SaveForm(this, "AmpView");
Application.ExitThread();
}
disp_setup();
puresignal.GetPSDisp(WDSP.id(1, 0), hx.AddrOfPinnedObject(), hym.AddrOfPinnedObject(),
hyc.AddrOfPinnedObject(), hys.AddrOfPinnedObject(),
hcm.AddrOfPinnedObject(), hcc.AddrOfPinnedObject(),
hcs.AddrOfPinnedObject());
lock (intslock) { disp_data(); }
if (psform.DismissAmpv)
{
Common.SaveForm(this, "AmpView");
Application.ExitThread();
}
}
public static bool Start()
{
bool retval = false;
int rc;
phase_buf_l = new float[2048];
phase_buf_r = new float[2048];
Console c = Console.getConsole();
rc = NetworkIO.initRadio();
if (rc != 0)
{
if (rc == -101) // firmware version error;
{
string fw_err = NetworkIO.getFWVersionErrorMsg();
if (fw_err == null)
{
fw_err = "Bad Firmware levels";
}
MessageBox.Show(fw_err, "Firmware Error",
MessageBoxButtons.OK,
MessageBoxIcon.Error);
return(false);
}
else
{
MessageBox.Show("Error starting SDR hardware, is it connected and powered?", "Network Error",
MessageBoxButtons.OK,
MessageBoxIcon.Error);
return(false);
}
}
// add setup calls that are needed to change between P1 & P2 before startup
if (NetworkIO.CurrentRadioProtocol == RadioProtocol.USB)
{
console.SampleRateTX = 48000; // set tx audio sampling rate
WDSP.SetTXACFIRRun(cmaster.chid(cmaster.inid(1, 0), 0), false);
puresignal.SetPSHWPeak(cmaster.chid(cmaster.inid(1, 0), 0), 0.4072);
console.psform.PSdefpeak = "0.4072";
}
else
{
console.SampleRateTX = 192000;
WDSP.SetTXACFIRRun(cmaster.chid(cmaster.inid(1, 0), 0), true);
puresignal.SetPSHWPeak(cmaster.chid(cmaster.inid(1, 0), 0), 0.2899);
console.psform.PSdefpeak = "0.2899";
}
c.SetupForm.InitAudioTab();
c.SetupForm.ForceReset = true;
cmaster.PSLoopback = cmaster.PSLoopback;
int result = NetworkIO.StartAudioNative();
if (result == 0)
{
retval = true;
}
return(retval);
}
// 'wrecord()' is called by ChannelMaster.dll
unsafe public void wrecord(int state, int pos, double *data)
{
if (run && (condx == state)) // if run && (!MOX and calling with receive data, or, MOX and calling with transmit data)
{
if (System.Threading.Interlocked.Exchange(ref busy, 1) != 1)
{
fixed(float *pleft = &left[0], pright = &right[0], pltemp = <emp[0], prtemp = &rtemp[0])
{
if (pos == 0) // calling from the "pre" location
{
if ((state == 0) && rxpre) // getting receive data and want receive data for 'pre' position
{
int rcvr_inrate = cmaster.GetInputRate(0, id); // could just read these from WaveThing.wave_file_writer[id]
int rcvr_insize = cmaster.GetBuffSize(rcvr_inrate);
deswizzle(rcvr_insize, data, pleft, pright);
if (WaveThing.wave_file_writer[id].BaseRate != rcvr_inrate)
{
int outsamps;
WDSP.xresampleFV(pleft, pltemp, rcvr_insize, &outsamps, WaveThing.wave_file_writer[id].RcvrResampL);
WDSP.xresampleFV(pright, prtemp, rcvr_insize, &outsamps, WaveThing.wave_file_writer[id].RcvrResampR);
WaveThing.wave_file_writer[id].AddWriteBuffer(pltemp, prtemp, outsamps);
}
else
{
WaveThing.wave_file_writer[id].AddWriteBuffer(pleft, pright, rcvr_insize);
}
}
if ((state == 1) && txpre) // getting transmit data and want transmit data for 'pre' position
{
int xmtr_inrate = cmaster.GetInputRate(1, 0);
int xmtr_insize = cmaster.GetBuffSize(xmtr_inrate);
deswizzle(xmtr_insize, data, pleft, pright);
if (WaveThing.wave_file_writer[id].BaseRate != xmtr_inrate)
{
int outsamps;
WDSP.xresampleFV(pleft, pltemp, xmtr_insize, &outsamps, WaveThing.wave_file_writer[id].XmtrResampL);
WDSP.xresampleFV(pright, prtemp, xmtr_insize, &outsamps, WaveThing.wave_file_writer[id].XmtrResampR);
WaveThing.wave_file_writer[id].AddWriteBuffer(pltemp, prtemp, outsamps);
}
else
{
WaveThing.wave_file_writer[id].AddWriteBuffer(pleft, pright, xmtr_insize);
}
}
}
if (pos == 1) // calling from "post" location
{
if ((state == 0) && !rxpre) // getting receive data and want receive data for 'post' position
{
int rcvr_outrate = cmaster.GetChannelOutputRate(0, id);
int rcvr_outsize = cmaster.GetBuffSize(rcvr_outrate);
deswizzle(rcvr_outsize, data, pleft, pright);
if (WaveThing.wave_file_writer[id].BaseRate != rcvr_outrate)
{
int outsamps;
WDSP.xresampleFV(pleft, pltemp, rcvr_outsize, &outsamps, WaveThing.wave_file_writer[id].RcvrResampL);
WDSP.xresampleFV(pright, prtemp, rcvr_outsize, &outsamps, WaveThing.wave_file_writer[id].RcvrResampR);
WaveThing.wave_file_writer[id].AddWriteBuffer(pltemp, prtemp, outsamps);
}
else
{
WaveThing.wave_file_writer[id].AddWriteBuffer(pleft, pright, rcvr_outsize);
}
}
if ((state == 1) && !txpre) // getting transmit data and want transmit data for 'post' position
{
int xmtr_outrate = cmaster.GetChannelOutputRate(1, 0);
int xmtr_outsize = cmaster.GetBuffSize(xmtr_outrate);
deswizzle(xmtr_outsize, data, pleft, pright);
if (WaveThing.wave_file_writer[id].BaseRate != xmtr_outrate)
{
int outsamps;
WDSP.xresampleFV(pleft, pltemp, xmtr_outsize, &outsamps, WaveThing.wave_file_writer[id].XmtrResampL);
WDSP.xresampleFV(pright, prtemp, xmtr_outsize, &outsamps, WaveThing.wave_file_writer[id].XmtrResampR);
WaveThing.wave_file_writer[id].AddWriteBuffer(pltemp, prtemp, outsamps);
}
else
{
WaveThing.wave_file_writer[id].AddWriteBuffer(pleft, pright, xmtr_outsize);
}
}
}
}
System.Threading.Interlocked.Exchange(ref busy, 0);
}
}
}
public static void CMCreateCMaster()
{
// set radio structure
int[] cmSPC = new int[1] {
2
};
int[] cmInboundSize = new int[8] {
240, 240, 240, 240, 240, 720, 240, 240
};
fixed(int *pcmSPC = cmSPC, pcmIbSize = cmInboundSize)
cmaster.SetRadioStructure(8, cmRCVR, 1, cmSubRCVR, 1, pcmSPC, pcmIbSize, 1536000, 48000, 384000);
// send function pointers
cmaster.SendCallbacks();
// set default rates
int[] xcm_inrates = new int[8] {
192000, 192000, 192000, 192000, 192000, 48000, 192000, 192000
};
int aud_outrate = 48000;
int[] rcvr_ch_outrates = new int[5] {
48000, 48000, 48000, 48000, 48000
};
int[] xmtr_ch_outrates = new int[1] {
192000
};
fixed(int *p1 = xcm_inrates, p2 = rcvr_ch_outrates, p3 = xmtr_ch_outrates)
cmaster.SetCMDefaultRates(p1, aud_outrate, p2, p3);
// create receivers, transmitters, specials, and buffers
cmaster.CreateRadio();
// get transmitter idenifiers
int txinid = cmaster.inid(1, 0); // stream id
int txch = cmaster.chid(txinid, 0); // wdsp channel
// setup transmitter input sample rate here since it is fixed
cmaster.SetXcmInrate(txinid, 48000);
// setup CFIR to run; it will always be ON with new protocol firmware
WDSP.SetTXACFIRRun(txch, true);
// set PureSignal basic parameters
// note: if future models have different settings, these calls could be moved to
// CMLoadRouterAll() which is called each time the receiver model changes.
SetPSRxIdx(0, 0); // txid = 0, all current models use Stream0 for RX feedback
SetPSTxIdx(0, 1); // txid = 0, all current models use Stream1 for TX feedback
puresignal.SetPSFeedbackRate(txch, 192000);
puresignal.SetPSHWPeak(txch, 0.2899);
// setup transmitter display
WDSP.TXASetSipMode(txch, 1); // 1=>call the appropriate 'analyzer'
WDSP.TXASetSipDisplay(txch, txinid); // disp = txinid = tx stream
NetworkIO.CreateRNet();
cmaster.create_rxa();
// create_wb();
}
private void udRXAVolume_ValueChanged(object sender, EventArgs e)
{
WDSP.SetRXAPanelGain1(chid, 0.01 * (double)udRXAVolume.Value);
}
private void udRXAAGCGain_ValueChanged(object sender, EventArgs e)
{
WDSP.SetRXAAGCTop(chid, (double)udRXAAGCGain.Value);
}
