#include "AliFMDCalibSampleRate.h"
#include "AliFMDCalibStripRange.h"
#include "AliFMDAltroMapping.h"
+#include "AliFMDUShortMap.h"
// #include "AliFMDAltroIO.h" // ALIFMDALTROIO_H
#include "AliAltroRawStreamV3.h"
#include <TArrayS.h> // ROOT_TArrayS
fMinStrip(0),
fMaxStrip(127),
fPreSamp(14+5),
- fSeen(0)
+ fSeen(0),
+ fVerbose(false),
+ fErrors("TObject"),
+ fNErrChanLen(0),
+ fNErrAddress(0)
{
// Default CTOR
for (Int_t i = 0; i < 3; i++) {
fSampleRate[i] = 0;
fZeroSuppress[i] = kFALSE;
fNoiseFactor[i] = 1;
+ fL1Phase[i] = 0;
+ fNErrors[i] = 0;
}
}
ReadAdcs(array);
Int_t nWrite = fTree->Fill();
- AliFMDDebug(1, ("Got a grand total of %d digits, wrote %d bytes to tree",
- array->GetEntriesFast(), nWrite));
+ AliDebugF(1,"Got a grand total of %d digits, wrote %d bytes to tree",
+ array->GetEntriesFast(), nWrite);
delete array;
}
+//____________________________________________________________________
+void
+AliFMDRawReader::AddError(Int_t ddl, Int_t hwaddr)
+{
+ Int_t nErr = fErrors.GetEntries();
+ TObject* o = new (fErrors[nErr]) TObject;
+ o->SetUniqueID((ddl & 0xFF) << 12 | (hwaddr & 0xFFF));
+}
+//____________________________________________________________________
+void
+AliFMDRawReader::ReadbackError(const AliAltroRawStreamV3& input,
+ const char* format, ...)
+{
+ static char buf[512];
+ va_list ap;
+ va_start(ap, format);
+ vsnprintf(buf, 511, format, ap);
+ buf[511] = '\0';
+ va_end(ap);
+
+ // { AliWarning(buf); }
+ if (AliDebugLevel() > 10) {
+ AliLog::Flush();
+ AliWarning(buf);
+ input.HexDumpChannel();
+ }
+
+ Int_t ddl = input.GetDDLNumber();
+ Int_t hwaddr = input.GetHWAddress();
+
+ fReader->AddMinorErrorLog(AliAltroRawStreamV3::kAltroPayloadErr,buf);
+ AddError(ddl, hwaddr);
+ fNErrors[ddl]++;
+}
+
//____________________________________________________________________
Int_t
AliFMDRawReader::NewDDL(AliAltroRawStreamV3& input, UShort_t& det)
// Get the DDL number
UInt_t ddl = input.GetDDLNumber();
- AliFMDDebug(2, ("DDL number %d", ddl));
-
- /* Note, previously, the ALTROCFG1 register was interpreted as
- *
- * Bits Value Description
- * 0- 3 0/1 1st Baseline filter, mode
- * 4- 5 Over-1 2nd baseline filter, # of pre-samples
- * 6- 9 factor 2nd baseline filter, # of post-samples
- * 10- 0 2nd baseline filter, enable
- * 11-12 00 Zero suppression, glitch filter mode
- * 13-15 001 Zero suppression, # of post samples
- * 16-17 01 Zero suppression, # of pre samples
- * 18 0/1 Zero suppression, enable
- *
- * The interpretation used in AliAltroRawStreamerV3 - which
- * corresponds directly to ALTRO DPCFG register - is
- *
- * Bits Value Description
- * 0- 3 0/1 1st Baseline filter, mode
- * 4 0 Polarity (if '1', then "1's inverse")
- * 5- 6 01 Zero suppression, # of pre samples
- * 7-10 0001 Zero suppression, # of post samples
- * 11 0 2nd baseline filter, enable
- * 12-13 00 Zero suppression, glitch filter mode
- * 14-16 factor 2nd baseline filter, # of post-samples
- * 17-18 01 2nd baseline filter, # of pre-samples
- * 19 0/1 Zero suppression, enable
- *
- * Writing 'x' for variable values, that means we have the
- * following patterns for the 2 cases
- *
- * bit # 20 16 12 8 4 0
- * old |0x01|0010|00xx|xxxx|xxxx|
- * new |x01x|xx00|0000|1010|xxxx|
- *
- * That means that we can check if bits 10-13 are '1000' or
- * '0000', which will tell us if the value was written with the
- * new or the old interpretation. That is, we can check that
- *
- * if (((altrocfg1 >> 10) & 0x8) == 0x8) {
- * // old interpretation
- * }
- * else {
- * // New interpretation
- * }
- *
- * That means, that we should never
- *
- * - change the # of zero suppression post samples
- * - Turn on 2nd baseline correction
- * - Change the zero-suppression glitch filter mode
- *
- * This change as introduced in version 1.2 of Rcu++
- */
+ AliDebugF(2,"DDL number %d", ddl);
+
+ // Note, previously, the ALTROCFG1 register was interpreted as
+ //
+ // Bits Value Description
+ // 0- 3 0/1 1st Baseline filter, mode
+ // 4- 5 Over-1 2nd baseline filter, # of pre-samples
+ // 6- 9 factor 2nd baseline filter, # of post-samples
+ // 10- 0 2nd baseline filter, enable
+ // 11-12 00 Zero suppression, glitch filter mode
+ // 13-15 001 Zero suppression, # of post samples
+ // 16-17 01 Zero suppression, # of pre samples
+ // 18 0/1 Zero suppression, enable
+ //
+ // The interpretation used in AliAltroRawStreamerV3 - which
+ // corresponds directly to ALTRO DPCFG register - is
+ //
+ // Bits Value Description
+ // 0- 3 0/1 1st Baseline filter, mode
+ // 4 0 Polarity (if '1', then "1's inverse")
+ // 5- 6 01 Zero suppression, # of pre samples
+ // 7-10 0001 Zero suppression, # of post samples
+ // 11 0 2nd baseline filter, enable
+ // 12-13 00 Zero suppression, glitch filter mode
+ // 14-16 factor 2nd baseline filter, # of post-samples
+ // 17-18 01 2nd baseline filter, # of pre-samples
+ // 19 0/1 Zero suppression, enable
+ //
+ // From ALTRO DPCF2 we get
+ //
+ // 20-23 rate Pre-samples
+ //
+ // Writing 'x' for variable values, that means we have the
+ // following patterns for the 2 cases
+ //
+ // bit # 20 16 12 8 4 0
+ // old |0x01|0010|00xx|xxxx|xxxx|
+ // new |x01x|xx00|0000|1010|xxxx|
+ //
+ // That means that we can check if bits 10-13 are '1000' or
+ // '0000', which will tell us if the value was written with the
+ // new or the old interpretation. That is, we can check that
+ //
+ // if (((altrocfg1 >> 10) & 0x8) == 0x8) {
+ // // old interpretation
+ // }
+ // else {
+ // // New interpretation
+ // }
+ //
+ // That means, that we should never
+ //
+ // - change the # of zero suppression post samples
+ // - Turn on 2nd baseline correction
+ // - Change the zero-suppression glitch filter mode
+ //
+ // This change as introduced in version 1.2 of Rcu++
+ //
UInt_t cfg1 = input.GetAltroCFG1();
if (((cfg1 >> 10) & 0x8) == 0x8) {
UInt_t cfg2 = input.GetAltroCFG2();
- AliFMDDebug(3, ("We have data from older MiniConf 0x%x cfg2=0x%08x",
- ((cfg1 >> 10) & 0x8), cfg2));
+ AliDebugF(3,"We have data from older MiniConf 0x%x cfg2=0x%08x",
+ ((cfg1 >> 10) & 0x8), cfg2);
fZeroSuppress[ddl] = (cfg1 >> 0) & 0x1;
fNoiseFactor[ddl] = (cfg1 >> 6) & 0xF;
fSampleRate[ddl] = (cfg2 >> 20) & 0xF;
}
else {
- AliFMDDebug(3, ("We have data from newer MiniConf 0x%x",
- ((cfg1 >> 10) & 0x8)));
+ AliDebugF(3,"We have data from newer MiniConf 0x%x",
+ ((cfg1 >> 10) & 0x8));
fZeroSuppress[ddl] = input.GetZeroSupp();
// WARNING: We store the noise factor in the 2nd baseline
// filters excluded post samples, since we'll never use that
// mode.
- fNoiseFactor[ddl] = input.GetNPostsamples();
+ // fNoiseFactor[ddl] = input.GetNPostsamples();
+ fNoiseFactor[ddl] = input.GetNNonZSPostsamples();
// WARNING: We store the sample rate in the number of pre-trigger
// samples, since we'll never use that mode.
fSampleRate[ddl] = input.GetNPretriggerSamples();
+ //
}
- AliFMDDebug(3, ("RCU @ DDL %d zero suppression: %s",
- ddl, (fZeroSuppress[ddl] ? "yes" : "no")));
- AliFMDDebug(3, ("RCU @ DDL %d noise factor: %d", ddl,fNoiseFactor[ddl]));
- AliFMDDebug(3, ("RCU @ DDL %d sample rate: %d", ddl,fSampleRate[ddl]));
-
-
+ AliDebugF(10,"Phase of DDL=%d is %g (%d)", ddl, input.GetL1Phase(),
+ input.GetAltroCFG2() & 0x1F);
+ fL1Phase[ddl] = input.GetAltroCFG2() & 0x1F; // input.GetL1Phase();
+ AliDebugF(3,"RCU @ DDL %d zero suppression: %s",
+ ddl, (fZeroSuppress[ddl] ? "yes" : "no"));
+ AliDebugF(3,"RCU @ DDL %d noise factor: %d", ddl,fNoiseFactor[ddl]);
+ AliDebugF(3,"RCU @ DDL %d sample rate: %d", ddl,fSampleRate[ddl]);
+
+
// Get Errors seen
Int_t nChAddrMismatch = input.GetNChAddrMismatch();
Int_t nChLenMismatch = input.GetNChLengthMismatch();
- if (nChAddrMismatch != 0)
- AliWarning(Form("Got %d channels with address mis-matches for 0x%03x",
- nChAddrMismatch, ddl));
- if (nChLenMismatch != 0)
- AliWarning(Form("Got %d channels with length mis-matches for 0x%03x",
- nChLenMismatch, ddl));
+ if (nChAddrMismatch != 0) {
+ ReadbackError(input,
+ "Got %d channels with address mis-matches for 0x%03x",
+ nChAddrMismatch, ddl);
+ fNErrAddress += nChAddrMismatch;
+ }
+ if (nChLenMismatch != 0) {
+ ReadbackError(input,
+ "Got %d channels with length mis-matches for 0x%03x",
+ nChLenMismatch, ddl);
+ fNErrChanLen += nChLenMismatch;
+ }
// Map DDL number to the detector number
AliFMDParameters* pars = AliFMDParameters::Instance();
//____________________________________________________________________
Int_t
-AliFMDRawReader::NewChannel(AliAltroRawStreamV3& input, UShort_t det,
+AliFMDRawReader::NewChannel(const AliAltroRawStreamV3& input, UShort_t det,
Char_t& ring, UShort_t& sec, Short_t& strbase)
{
// Processs a new channel. Sets the internal data members
Int_t ddl = input.GetDDLNumber();
Int_t hwaddr = input.GetHWAddress();
if (input.IsChannelBad()) {
- AliError(Form("Channel 0x%03x is marked as bad!", hwaddr));
+ ReadbackError(input, "Ignoring channel %03d/0x%03x with errors",
+ ddl, hwaddr);
+ return 0xFFFF;
}
AliFMDParameters* pars = AliFMDParameters::Instance();
map->ChannelAddress(hwaddr, board, chip, channel);
// Then try to map to detector address
if (!map->Channel2StripBase(board, chip, channel, ring, sec, strbase)) {
- AliError(Form("Failed to get detector id from DDL %d, "
- "hardware address 0x%03x", ddl, hwaddr));
+ AliErrorF("Failed to get detector id from DDL %d, "
+ "hardware address 0x%03x", ddl, hwaddr);
return -1;
}
- AliFMDDebug(4, ("Board: 0x%02x, Altro: 0x%x, Channel: 0x%x",
- board, chip, channel));
+ AliDebugF(7,"Board: 0x%02x, Altro: 0x%x, Channel: 0x%x",
+ board, chip, channel);
// Get the 'conditions'
fMinStrip = pars->GetMinStrip(det, ring, sec, strbase);
fMaxStrip = pars->GetMaxStrip(det, ring, sec, strbase);
fPreSamp = pars->GetPreSamples(det, ring, sec, strbase);
- if (fSampleRate[ddl] == 0)
+ if (fSampleRate[ddl] == 0) {
+ AliDebugF(7,"Get sample rate for RCU @ DDL %d from OCDB", ddl);
fSampleRate[ddl] = pars->GetSampleRate(det, ring, sec, strbase);
+ }
+ AliDebugF(7,"RCU @ DDL %d sample rate: %d", ddl,fSampleRate[ddl]);
return hwaddr;
}
+//____________________________________________________________________
+Bool_t
+AliFMDRawReader::NewBunch(const AliAltroRawStreamV3& input,
+ UShort_t& start, UShort_t& length)
+{
+ //
+ // Do some checks on the bunch data
+ //
+ Int_t ddl = input.GetDDLNumber();
+ Int_t hwaddr = input.GetHWAddress();
+ UShort_t nSamples = input.GetNSamplesPerCh() + fPreSamp;
+ UShort_t tstart = input.GetStartTimeBin();
+ length = input.GetBunchLength();
+
+ if (tstart >= nSamples) {
+ ReadbackError(input,
+ "Bunch in %03d/0x%03x has an start time greater "
+ "than number of samples: 0x%x >= 0x%x",
+ ddl, hwaddr, tstart, nSamples);
+ return false;
+ }
+ if ((int(tstart) - length + 1) < 0) {
+ ReadbackError(input,
+ "Bunch in %03d/0x%03x has an invalid length and "
+ "start time: 0x%x,0x%x (%d-%d+1=%d<0)",
+ ddl, hwaddr, length, tstart, tstart, length,
+ int(tstart)-length+1);
+ return false;
+ }
+ if (tstart >= start) {
+ ReadbackError(input,
+ "Bunch in %03d/0x%03x has early start time: "
+ "0x%x >= 0x%x", ddl, hwaddr, tstart, start);
+ return false;
+ }
+ start = tstart;
+ return true;
+}
+
//____________________________________________________________________
Int_t
-AliFMDRawReader::NewSample(AliAltroRawStreamV3& input,
+AliFMDRawReader::NewSample(const AliAltroRawStreamV3& input,
Int_t i, UShort_t t, UShort_t sec,
UShort_t strbase, Short_t& str, UShort_t& samp)
{
Int_t hwa = input.GetHWAddress();
const UShort_t* data = input.GetSignals();
Short_t adc = data[i];
- AliFMDDebug(10, ("0x%04x/0x%03x/%04d %4d", ddl, hwa, t, adc));
+ AliDebugF(10,"0x%04x/0x%03x/%04d %4d", ddl, hwa, t, adc);
AliFMDParameters* pars = AliFMDParameters::Instance();
AliFMDAltroMapping* map = pars->GetAltroMap();
map->Timebin2Strip(sec, t, fPreSamp, fSampleRate[ddl], stroff, samp);
str = strbase + stroff;
- AliFMDDebug(20, ("0x%04x/0x%03x/%04d=%4d maps to strip %3d sample %d "
- "(pre: %d, min: %d, max: %d, rate: %d)",
- ddl, hwa, t, adc, str, samp, fPreSamp,
- fMinStrip, fMaxStrip, fSampleRate[ddl]));
+ AliDebugF(20,"0x%04x/0x%03x/%04d=%4d maps to strip %3d sample %d "
+ "(pre: %d, min: %d, max: %d, rate: %d)",
+ ddl, hwa, t, adc, str, samp, fPreSamp,
+ fMinStrip, fMaxStrip, fSampleRate[ddl]);
if (str < 0) {
- AliFMDDebug(10, ("Got presamples at timebin %d", i));
+ AliDebugF(10,"Got presamples at timebin %d", i);
return -1;
}
// VA1 Local strip number
Short_t lstrip = (t - fPreSamp) / fSampleRate[ddl] + fMinStrip;
- AliFMDDebug(15, ("Checking if strip %d (%d) in range [%d,%d]",
- lstrip, str, fMinStrip, fMaxStrip));
+ AliDebugF(15,"Checking if strip %d (%d) in range [%d,%d]",
+ lstrip, str, fMinStrip, fMaxStrip);
if (lstrip < fMinStrip || lstrip > fMaxStrip) {
- AliFMDDebug(10, ("Strip %03d-%d (%d,%d) from t=%d out of range (%3d->%3d)",
- str, samp, lstrip, stroff, t, fMinStrip, fMaxStrip));
+ AliDebugF(10,"Strip %03d-%d (%d,%d) from t=%d out of range (%3d->%3d)",
+ str, samp, lstrip, stroff, t, fMinStrip, fMaxStrip);
adc = -1;
}
// Possibly do pedestal subtraction of signal
if (adc > 1023)
- AliWarning(Form("ADC value out of range: %4d", adc));
+ AliWarningF("ADC value out of range: %4d", adc);
return adc;
}
//____________________________________________________________________
-Bool_t
+Int_t
AliFMDRawReader::NextSample(UShort_t& det, Char_t& rng, UShort_t& sec,
UShort_t& str, UShort_t& sam, UShort_t& rat,
Short_t& adc, Bool_t& zs, UShort_t& fac)
{
// Scan current event for next signal. It returns kFALSE when
// there's no more data in the event.
+ //
+ // Note, that this member function is in principle very fast, but
+ // contains less error checking. In particular, channels that have
+ // bad bunches cannot be checked here. Seeing a bad bunch will only
+ // skip the remainder of the channel and not reset the already read
+ // digits. This is potentially dangerous.
+ //
+ // Parameters:
+ // det On return, contain the detector number
+ // rng On return, contain the ring identifier
+ // sec On return, contain the sector number
+ // str On return, contain the strip number
+ // sam On return, contain the sample number
+ // rat On return, contain the sample rate
+ // adc On return, contain the ADC counts
+ // zs On return, contain the zero-supp. flag
+ // fac On return, contain the zero-supp. noise factor
+ //
+ // Return values:
+ // 0 No more data
+ // -1 Read sample belongs to a bad bunch
+ // >0 Good status - contains bit mask of values
+ // Bit 1 New DDL
+ // Bit 2 New Channel
+ // Bit 3 New Bunch
+ // Bit 4 New Sample
static AliAltroRawStreamV3 stream(fReader); // = 0;
static Int_t ddl = -1;
static UShort_t tdet = 0;
static Short_t tstr = 0;
static Short_t bstr = -1;
static UShort_t tsam = 0;
- static UInt_t trate = 0;
+ // static UInt_t trate = 0;
static Int_t hwaddr = -1;
static UShort_t start = 0;
static UShort_t length = 0;
static Int_t i = 0;
// First entry!
if (stream.GetDDLNumber() < 0) {
+ fReader->Reset();
fReader->Select("FMD");
+ stream.Reset();
+ stream.SelectRawData("FMD");
+ stream.SetCheckAltroPayload(false);
+ for (Int_t j = 0; j < kNDDL; j++) fNErrors[j] = 0;
// Reset variables
ddl = -1;
- trate = 0;
+ // trate= 0;
tdet = 0;
trng = '\0';
tsec = 0;
hwaddr = -1;
}
+ UShort_t ret = 0;
do {
+ AliDebugF(15, "t=%4d, start=%4d, length=%4d", t, start, length);
if (t < start - length + 1) {
- if (!stream.NextBunch()) {
- if (!stream.NextChannel()) {
+ AliDebugF(10,"Time t=%d < start-length+1=%d-%d+1 (%3d/0x%03x)",
+ t, start, length, ddl, hwaddr);
+ if (hwaddr > 0xFFF ||
+ hwaddr < 0 ||
+ !stream.NextBunch()) {
+ if (AliDebugLevel() >= 10 && hwaddr > 0xFFF) {
+ AliDebug(10,"Last channel read was marked bad");
+ }
+ if (AliDebugLevel() >= 10 && hwaddr < 0) {
+ AliDebug(10,"No more channels");
+ }
+ AliDebug(10,"No next bunch, or first entry");
+ if (ddl < 0 || !stream.NextChannel()) {
+ if (AliDebugLevel() >= 10 && ddl < 0) {
+ AliDebug(10,"No DDL");
+ }
+ AliDebug(10,"No next channel, or first entry");
if (!stream.NextDDL()) {
+ AliDebug(10,"No more DDLs");
stream.Reset();
- return kFALSE;
+ return 0;
}
ddl = NewDDL(stream, tdet);
+ AliDebugF(5,"New DDL: %d (%d)", ddl, tdet);
+ ret |= 0x1;
+ continue;
}
hwaddr = NewChannel(stream, tdet, trng, tsec, bstr);
+ if (hwaddr > 0xFFF) fNErrors[ddl] += 1;
+ AliDebugF(5,"New Channel: %3d/0x%03x", ddl, hwaddr);
+ start = 1024;
+ ret |= 0x2;
+ continue;
+ }
+ if (!NewBunch(stream, start, length)) {
+ // AliWarning(Form("Bad bunch in %3d/0x%03x read - "
+ // "should progress to next channel "
+ // "(t=%4d,start=%4d,length=%4d)",
+ // ddl, hwaddr, t,start, length));
+ hwaddr = 0xFFFF; // Bad channel
+ return -1;
}
- start = stream.GetStartTimeBin();
- length = stream.GetBunchLength();
+ AliDebugF(5, "New bunch in %3d/0x%03x: start=0x%03x, length=%4d",
+ ddl, hwaddr, start, length);
+ ret |= 0x4;
t = start;
i = 0;
+ AliDebugF(10,"Got new bunch FMD%d%c[%2d], bunch @ %d, length=%d",
+ tdet, trng, tsec, start, length);
}
Int_t tadc = NewSample(stream, i, t, tsec, bstr, tstr, tsam);
+ AliDebugF(10,"New sample FMD%d%c[%2d,%3d]-%d = 0x%03x",
+ tdet, trng, tsec, tstr, tsam, tadc);
+ ret |= 0x8;
if (tadc >= 0) {
det = tdet;
rng = trng;
fac = fNoiseFactor[ddl];
t--;
i++;
+ AliDebugF(10,"Returning FMD%d%c[%2d,%3d]-%d = 0x%03x (%d,%d,%d)",
+ det, rng, sec, str, sam, adc, rat, zs, fac);
break;
}
+ t--;
+ i++;
} while (true);
-
- return kTRUE;
+ AliDebugF(5,"Returning 0x%02x", ret);
+ return ret;
}
//____________________________________________________________________
-Bool_t
+Int_t
AliFMDRawReader::NextSignal(UShort_t& det, Char_t& rng,
UShort_t& sec, UShort_t& str,
Short_t& adc, Bool_t& zs,
UShort_t& fac)
{
-
+ //
+ // Get the next signal
+ //
+ // Parameters:
+ // det On return, the detector
+ // rng On return, the ring
+ // sec On return, the sector
+ // str On return, the strip
+ // adc On return, the ADC value
+ // zs On return, whether zero-supp. is enabled
+ // fac On return, the usd noise factor
+ //
+ // Return:
+ // true if valid data is returned
+ //
+ Int_t ret = 0;
do {
UShort_t samp, rate;
- if (!NextSample(det, rng, sec, str, samp, rate, adc, zs, fac))
- return kFALSE;
-
- Bool_t take = kFALSE;
- switch (rate) {
- case 1: take = kTRUE; break;
- case 2: if (samp == 1) take = kTRUE; break;
- case 3: if (samp == 1) take = kTRUE; break;
- case 4: if (samp == 2) take = kTRUE; break;
- default: if (samp == rate-2) take = kTRUE; break;
- }
+ if ((ret = NextSample(det, rng, sec, str, samp, rate, adc, zs, fac)) <= 0)
+ return ret;
+
+ Bool_t take = SelectSample(samp, rate);
if (!take) continue;
break;
} while (true);
- return kTRUE;
+ return ret;
}
//____________________________________________________________________
{
// Read ADC values from raw input into passed TClonesArray of AliFMDDigit
// objects.
- AliFMDDebug(2, ("Reading ADC values into a TClonesArray"));
+ AliDebug(3,"Reading ADC values into a TClonesArray");
// Read raw data into the digits array, using AliFMDAltroReader.
if (!array) {
AliError("No TClonesArray passed");
return kFALSE;
}
+ // static ULong_t unique = 0;
const UShort_t kUShortMax = (1 << 16) - 1;
fSeen.Reset(kUShortMax);
+ fErrors.Clear();
+ fNErrChanLen = 0;
+ fNErrAddress = 0;
+ for (Int_t ddl = 0; ddl < kNDDL; ddl++) fNErrors[ddl] = 0;
AliAltroRawStreamV3 input(fReader);
input.Reset();
+ input.SetCheckAltroPayload(false);
input.SelectRawData("FMD");
// Loop over input RORCs
UShort_t det = 0;
Int_t ddl = NewDDL(input, det);
if (ddl < 0) break;
+ fNErrors[ddl] = 0;
while (input.NextChannel()) {
// Get the hardware address, and map that to detector coordinates
Char_t ring;
UShort_t sec;
Short_t strbase;
- Int_t hwaddr = NewChannel(input, det, ring, sec, strbase);
+ Int_t hwaddr = NewChannel(input, det, ring, sec, strbase);
if (hwaddr < 0) break;
+ if (hwaddr > 0xFFF) continue;
+ UShort_t start = 0x3FF;
+ Bool_t errors = false;
+ Int_t first = -1;
+ Int_t last = -1;
// Loop over bunches
while (input.NextBunch()) {
// Get Lenght of bunch, and pointer to the data
const UShort_t* data = input.GetSignals();
- UShort_t start = input.GetStartTimeBin();
- UShort_t length = input.GetBunchLength();
+ UShort_t length;
+ if (!NewBunch(input, start, length)) {
+ errors = true;
+ break;
+ }
+
// Loop over the data and store it.
for (Int_t i = 0; i < length; i++) {
UShort_t samp;
Int_t t = start - i;
Int_t adc = NewSample(input, i, t, sec, strbase, str, samp);
- if (adc < 0) continue;
+ if (adc <= 0) continue;
UShort_t counts = adc;
- AliFMDDebug(10, ("FMD%d%c[%02d,%03d]-%d: %4d",
- det, ring, sec, str, samp, counts));
+ AliDebugF(10,"FMD%d%c[%02d,%03d]-%d: %4d",
+ det, ring, sec, str, samp, counts);
// Check the cache of indicies
Int_t idx = fSeen(det, ring, sec, str);
AliFMDDigit* digit = 0;
if (idx == kUShortMax) {
// We haven't seen this strip yet.
fSeen(det, ring, sec, str) = idx = array->GetEntriesFast();
- AliFMDDebug(7,("making digit for FMD%d%c[%2d,%3d]-%d "
- "from timebin %4d",
- det, ring, sec, str, samp, t));
+ AliDebugF(7, "making digit @ %5d for FMD%d%c[%2d,%3d]-%d "
+ "from %3d/0x%03x/%4d (def: %d)",
+ idx, det, ring, sec, str, samp, ddl, hwaddr, t,
+ fSampleRate[ddl]);
digit = new ((*array)[idx]) AliFMDDigit(det, ring, sec, str);
digit->SetDefaultCounts(fSampleRate[ddl]);
}
- else
+ else {
digit = static_cast<AliFMDDigit*>(array->At(idx));
- AliFMDDebug(10, ("Setting FMD%d%c[%2d,%3d]-%d "
- "from timebin %4d=%4d (%4d)",
- det, ring, sec, str, samp, t, counts, data[i]));
+ }
+ if (first < 0) first = idx;
+ last = idx;
+ AliDebugF(5,"Setting FMD%d%c[%2d,%3d]-%d from timebin "
+ "%4d=%4d (%4d)", det, ring, sec, str, samp, t,
+ counts, data[i]);
digit->SetCount(samp, counts);
+ if (AliLog::GetDebugLevel("FMD","") >= 5) digit->Print();
+ } // for (i)
+ } // while (bunch)
+ if (errors) {
+ AliDebugF(2,"Channel %3d/0x%03x contain errors, "
+ "resetting index %d to %d", ddl, hwaddr, first, last);
+ if (first >= 0) {
+ for (Int_t i = first; i <= last; i++) {
+ AliFMDDigit* digit = static_cast<AliFMDDigit*>(array->At(i));
+ for (Int_t j = 0; j < fSampleRate[ddl]; j++) {
+ AliDebugF(10,"Resetting strip %s=%d",
+ digit->GetName(),digit->Counts());
+ digit->SetCount(j, kBadSignal);
+ }
+ }
+ }
+ }
+ // if (errors && (AliDebugLevel() > 0)) input.HexDumpChannel();
+ } // while (channel)
+ } // while (ddl)
+ if (fNErrors[0] > 0 || fNErrors[1] > 0 || fNErrors[2] > 0 ||
+ fNErrChanLen > 0 || fNErrAddress > 0) {
+ // AliLog::Flush();
+ AliLog::SetPrintRepetitions(false);
+ AliWarningF("R/O errors: FMD1=%d, FMD2=%d, FMD3=%d, "
+ "Channel Length=%d, address=%d",
+ fNErrors[0], fNErrors[1], fNErrors[2],
+ fNErrChanLen, fNErrAddress);
+ AliLog::SetPrintRepetitions(true);
+ }
+ if (fVerbose && fErrors.GetEntries() > 0) {
+ TString msg;
+ Int_t nErr = fErrors.GetEntries();
+ for (Int_t i = 0; i < nErr; i++) {
+ UInt_t where = fErrors.At(i)->GetUniqueID();
+ if (i % 6 == 0) msg.Append("\n");
+ msg.Append(Form(" %3d/0x%03x", (where >> 12) & 0xFF, (where & 0xFFF)));
+ }
+ // AliLog::Flush();
+ AliLog::SetPrintRepetitions(false);
+ AliWarningF("Got %d errors in channels %s", nErr, msg.Data());
+ AliLog::SetPrintRepetitions(true);
+ }
+ return kTRUE;
+}
+//____________________________________________________________________
+Bool_t
+AliFMDRawReader::ReadAdcs(AliFMDUShortMap& map)
+{
+ // Read ADC values from raw input into passed TClonesArray of AliFMDDigit
+ // objects.
+ AliDebug(3,"Reading ADC values into a map");
+
+ // const UShort_t kUShortMax = (1 << 16) - 1;
+ for (Int_t ddl = 0; ddl < kNDDL; ddl++) fNErrors[ddl] = 0;
+
+ AliAltroRawStreamV3 input(fReader);
+ input.Reset();
+ input.SetCheckAltroPayload(false);
+ input.SelectRawData("FMD");
+
+ // Loop over input RORCs
+ while (input.NextDDL()) {
+ UShort_t det = 0;
+ Int_t ddl = NewDDL(input, det);
+ if (ddl < 0) break;
+ fNErrors[ddl] = 0;
+
+ while (input.NextChannel()) {
+ // Get the hardware address, and map that to detector coordinates
+ Char_t ring;
+ UShort_t sec;
+ Short_t strbase;
+ Int_t hwaddr = NewChannel(input, det, ring, sec, strbase);
+ if (hwaddr < 0) break;
+ if (hwaddr > 0xFFF) continue;
+
+ UShort_t start = 0x3FF;
+ Bool_t errors = false;
+ Int_t first = -1;
+ Int_t last = -1;
+ // Loop over bunches
+ while (input.NextBunch()) {
+ // Get Lenght of bunch, and pointer to the data
+ // const UShort_t* data = input.GetSignals();
+ UShort_t length;
+ if (!NewBunch(input, start, length)) {
+ errors = true;
+ break;
+ }
+
+
+ // Loop over the data and store it.
+ for (Int_t i = 0; i < length; i++) {
+ // Time
+ Short_t str;
+ UShort_t samp;
+ Int_t t = start - i;
+ Int_t adc = NewSample(input, i, t, sec, strbase, str, samp);
+ if (adc < 0) continue;
+ UShort_t counts = adc;
+
+ AliDebugF(10, "FMD%d%c[%02d,%03d]-%d: %4d",
+ det, ring, sec, str, samp, counts);
+ if (SelectSample(samp, fSampleRate[ddl]))
+ map(det,ring,sec,str) = counts;
+ if (first < 0) first = str;
+ last = str;
} // for (i)
} // while (bunch)
+ if (errors) {
+ AliDebugF(2, "Channel %3d/0x%03x contain errors, "
+ "resetting strips %d to %d", ddl, hwaddr, first, last);
+ if (first >= 0) {
+ Int_t ds = first <= last ? 1 : -1;
+ for (Int_t i = first; i != last+ds; i += ds) {
+ AliDebugF(10, "Resetting strip FMD%d%c[%02d,%03d]=%d",
+ det,ring,sec,i,map(det,ring,sec,i));
+ map(det,ring,sec,i) = kBadSignal;
+ }
+ }
+ }
} // while (channel)
} // while (ddl)
return kTRUE;
TArrayS &pulseLength,
Bool_t* detectors)
{
-
- AliFMDDebug(0, ("Start of SOD/EOD"));
+ //
+ // Read SOD event into passed objects.
+ //
+ // Parameters:
+ // samplerate The sample rate object to fill
+ // striprange The strip range object to fill
+ // pulseSize The pulse size object to fill
+ // pulseLength The pulse length (in events) object to fill
+ //
+ // Return:
+ // @c true on success
+ //
+ AliDebug(0,"Start of SOD/EOD");
UInt_t shift_clk[18];
UInt_t sample_clk[18];
Int_t ddl = streamer.GetDDLNumber();
Int_t detID = fReader->GetDetectorID();
if (detectors) detectors[map->DDL2Detector(ddl)-1] = kTRUE;
- AliFMDDebug(0, (" From reader: DDL number is %d , det ID is %d",ddl,detID));
+ AliDebugF(0," From reader: DDL number is %d , det ID is %d",ddl,detID);
ULong_t nPayloadWords = streamer.GetRCUPayloadSizeInSOD();
UChar_t* payloadData = streamer.GetRCUPayloadInSOD();
//UInt_t data = (0xFFFF & dataWord) ;
if(error) {
- AliWarning(Form("error bit detected at Word 0x%06x; "
- "error % d, type %d, bc_not_altro %d, "
- "bcast %d, board 0x%02x, chip 0x%x, "
- "channel 0x%02x, instruction 0x%03x",
- address, error, type, bc_not_altro,
- bcast,board,chip,channel,instruction));
+ AliWarningF("error bit detected at Word 0x%06x; "
+ "error % d, type %d, bc_not_altro %d, "
+ "bcast %d, board 0x%02x, chip 0x%x, "
+ "channel 0x%02x, instruction 0x%03x",
+ address, error, type, bc_not_altro,
+ bcast,board,chip,channel,instruction);
//process error
continue;
}
case 0x24: break; // FMD: L2 timeout
case 0x25: // FMD: Shift clk
shift_clk[board] = ((data >> 8 ) & 0xFF);
- AliFMDDebug(30, ("Read shift_clk=%d for board 0x%02x",
- shift_clk[board], board));
+ AliDebugF(30, "Read shift_clk=%d for board 0x%02x",
+ shift_clk[board], board);
break;
case 0x26: // FMD: Strips
strip_low[board] = ((data >> 0 ) & 0xFF);
case 0x2A: break; // FMD: Preamp ref
case 0x2B: // FMD: Sample clk
sample_clk[board] = ((data >> 8 ) & 0xFF);
- AliFMDDebug(30, ("Read sample_clk=%d for board 0x%02x",
- sample_clk[board], board));
+ AliDebugF(30,"Read sample_clk=%d for board 0x%02x",
+ sample_clk[board], board);
break;
case 0x2C: break; // FMD: Commands
case 0x4B: // FMD: Cal events
default: break;
}
- AliFMDDebug(50, ("instruction 0x%x, dataword 0x%x",
- instruction,dataWord));
+ AliDebugF(50,"instruction 0x%x, dataword 0x%x",
+ instruction,dataWord);
} // End of loop over Result memory event
UShort_t det = 0;
strip_high[boards[i]] = strip_high[boards[idx]];
pulse_length[boards[i]] = pulse_length[boards[idx]];
pulse_size[boards[i]] = pulse_size[boards[idx]];
- AliFMDDebug(3, ("Vote taken for ddl %d, board 0x%x",
- ddl,boards[i]));
+ AliDebugF(3,"Vote taken for ddl %d, board 0x%x",
+ ddl,boards[i]);
}
}
}
if(sample_clk[boards[i]])
samplerate = shift_clk[boards[i]]/sample_clk[boards[i]];
- AliFMDDebug(10, ("Sample rate for board 0x%02x is %d",
- boards[i], samplerate));
+ AliDebugF(10,"Sample rate for board 0x%02x is %d",
+ boards[i], samplerate);
sampleRate->Set(det,ring,sector,0,samplerate);
stripRange->Set(det,ring,sector,0,
strip_low[boards[i]],strip_high[boards[i]]);
- AliFMDDebug(20, ("det %d, ring %c, ",det,ring));
+ AliDebugF(20,"det %d, ring %c, ",det,ring);
pulseLength.AddAt(pulse_length[boards[i]],
GetHalfringIndex(det,ring,boards[i]/16));
pulseSize.AddAt(pulse_size[boards[i]],
- AliFMDDebug(20, (": Board: 0x%02x\n"
- "\tstrip_low %3d, strip_high %3d\n"
- "\tshift_clk %3d, sample_clk %3d\n"
- "\tpulse_size %3d, pulse_length %3d",
- boards[i],
- strip_low[boards[i]], strip_high[boards[i]],
- shift_clk[boards[i]], sample_clk[boards[i]],
- pulse_size[boards[i]],pulse_length[boards[i]]));
+ AliDebugF(20,": Board: 0x%02x\n"
+ "\tstrip_low %3d, strip_high %3d\n"
+ "\tshift_clk %3d, sample_clk %3d\n"
+ "\tpulse_size %3d, pulse_length %3d",
+ boards[i],
+ strip_low[boards[i]], strip_high[boards[i]],
+ shift_clk[boards[i]], sample_clk[boards[i]],
+ pulse_size[boards[i]],pulse_length[boards[i]]);
}
}
AliFMDParameters::Instance()->SetSampleRate(sampleRate);
AliFMDParameters::Instance()->SetStripRange(stripRange);
- AliFMDDebug(0, ("End of SOD/EOD"));
+ AliDebug(0,"End of SOD/EOD");
return kTRUE;
}
if (index < 4) {
// fRawReader->AddFatalErrorLog(k32bitWordReadErr,Form("pos = %d",index));
// PrintDebug();
- AliWarning(Form("Invalid raw data payload position (%d) !",index));
+ AliWarningF("Invalid raw data payload position (%d) !",index);
}
UInt_t word = 0;
}
//_____________________________________________________________________
Int_t AliFMDRawReader::GetHalfringIndex(UShort_t det, Char_t ring,
- UShort_t board) {
-
+ UShort_t board) const
+{
+ //
+ // Get short index for a given half-ring
+ //
+ // Parameters:
+ // det Detector number
+ // ring Ring identifer
+ // board Board number
+ //
+ // Return:
+ //
+ //
UShort_t iring = (ring == 'I' ? 1 : 0);
Int_t index = (((det-1) << 2) | (iring << 1) | (board << 0));