Improving documentation and macros.

[u/mrichter/AliRoot.git] / HLT / MUON / AliHLTMUONRecHit.cxx

/**************************************************************************
 * This file is property of and copyright by the ALICE HLT Project        *
 * All rights reserved.                                                   *
 *                                                                        *
 * Primary Authors:                                                       *
 *   Artur Szostak <artursz@iafrica.com>                                  *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

// $Id$

///
/// @file   AliHLTMUONRecHit.cxx
/// @author Artur Szostak <artursz@iafrica.com>
/// @date   29 Sep 2007
/// @brief  Implementation of the AliHLTMUONRecHit class.
///
/// The AliHLTMUONRecHit object is used to store 3D hit coordinates translated
/// from dHLT raw data.
///

#include "AliHLTMUONRecHit.h"
#include "AliLog.h"
#include "mapping/AliMpDEManager.h"
#include <cstring>
#include <iostream>
#include <iomanip>

ClassImp(AliHLTMUONRecHit);
ClassImp(AliHLTMUONRecHit::AliChannel);


std::ostream& operator << (std::ostream& stream, const AliHLTMUONRecHit& hit)
{
/// Stream operator for std::ostream classes.
/// \param stream  The output stream object being written to.
/// \param track  The hit object to print to the stream.
/// \returns  Returns 'stream'.

        stream << "(" << hit.X() << ", " << hit.Y() << ", " << hit.Z() << ")";
        return stream;
}


void AliHLTMUONRecHit::SetDebugInfo(
                Int_t detElemId, Int_t clusterId,
                UShort_t nChExpB, UShort_t nChExpNB,
                Float_t chargeB, Float_t chargeNB,
                Int_t sourceDDL
        )
{
/// Sets the extra debugging information.
/// @param detElemId  The detector element ID.
/// @param clusterId  Cluster ID of the hit's cluster.
/// @param nChExpB    Number of expected channels in the bending plane forming the cluster.
/// @param nChExpNB   Number of expected channels in the non-bending plane forming the cluster.
/// @param chargeB    The charge of the cluster in the bending plane.
/// @param chargeNB   The charge of the cluster in the non-bending plane.
/// @param sourceDDL  The source DDL of this hit.

        fSourceDDL = sourceDDL;
        fDetElemId = detElemId;
        fClusterId = clusterId;
        fNchExpB = nChExpB;
        fNchExpNB = nChExpNB;
        fChargeB = chargeB;
        fChargeNB = chargeNB;
}
        

Int_t AliHLTMUONRecHit::Chamber(bool warn) const
{
/// Returns the chamber ID for this hit.
/// \param warn  Indicates if any warning should be printed in case of problems.
/// \returns The chamber number of this hit in the range [1..14] or -1 if not known.

        if (fDetElemId != -1) return AliMpDEManager::GetChamberId(fDetElemId, warn);
        
        if (warn)
        {
                AliWarning("Neither the DDL source nor the detector element ID was not set,"
                        " so we do not know on which chamber this hit was reconstructed."
                );
        }
        return -1;
}


void AliHLTMUONRecHit::AddChannel(
                Short_t manu, Short_t channel, Short_t signal,
                UInt_t rawDataWord
        )
{
/// Adds a new channel to the channels list forming this hit's cluster.
/// @param manu    The MANU number
/// @param channel The MANU channel address.
/// @param signal  The ADC signal value measured on the channel.
/// @param rawDataWord This is the raw data word as read from the DDL.

        Int_t index = fChannels.GetEntriesFast();
        new (fChannels[index]) AliChannel(manu, channel, signal, rawDataWord);
}


void AliHLTMUONRecHit::Print(Option_t* option) const
{
/// Prints the coordinates of this hit to standard output (screen).
/// \param option  Can be one of the following:
///           - "compact" - prints in a compact format.
///           - "detail" - prints hit information in a more detailed format.
///           - "all" - prints a full dump of the hit object.

        using namespace std;

        if (    option == NULL or strcmp(option, "") == 0 or
                strcmp(option, "compact") == 0
           )
        {
                cout << *this << endl;
        }
        else if (strcmp(option, "detail") == 0)
        {
                cout << "(x = " << X() << " cm, y = " << Y()
                        << " cm, z = " << Z()
                        << " cm); source DDL = " << fSourceDDL
                        << "; DetElemID = " << fDetElemId
                        << "; cluster ID = " << fClusterId
                        << "; total charge = " << fChargeB + fChargeNB
                        << "; expected #ch = " << fNchExpB + fNchExpNB << endl;
        }
        else if (strcmp(option, "all") == 0)
        {
                cout << "(x = " << X() << " cm, y = " << Y()
                        << " cm, z = " << Z()
                        << " cm); source DDL = " << fSourceDDL
                        << "; DetElemID = " << fDetElemId
                        << "; cluster ID = " << fClusterId
                        << "; charge (Bending, Non-bending) = (" << fChargeB
                        << ", " << fChargeNB
                        << "); expected #ch (Bending, Non-bending) = ("
                        << fNchExpB << ", " << fNchExpNB << ")" << endl;
                if (fChannels.GetEntriesFast() == 0)
                {
                        cout << "No channels found for this hit." << endl;
                }
                else
                {
                        streamsize w = cout.width();
                        ios::fmtflags f = cout.flags();
                        cout << setw(12) << "MANU"
                                << setw(12) << "Channel"
                                << setw(12) << "Signal"
                                << setw(15) << "Raw data word" << endl;
                        cout << showbase;
                        for (Int_t i = 0; i < fChannels.GetEntriesFast(); i++)
                        {
                                const AliHLTMUONRecHit::AliChannel* c =
                                        static_cast<const AliHLTMUONRecHit::AliChannel*>(fChannels[i]);
                                cout << dec << setw(12) << c->Manu()
                                        << setw(12) << c->Address()
                                        << setw(12) << c->Signal()
                                        << "     " << hex << setw(10) << internal;
                                ios::char_type fc = cout.fill('0');
                                cout << c->RawDataWord() << right << endl;
                                cout.fill(fc);
                        }
                        cout.width(w); // reset the field width to previous value.
                        cout.flags(f); // reset the flags to previous values.
                }
        }
        else
        {
                AliError("Unknown option specified. Can only be one of 'compact',"
                        " 'detail' or 'all'."
                );
        }
}


Int_t AliHLTMUONRecHit::Compare(const TObject* obj) const
{
/// We compare this object with 'obj' first by X, then Y, then Z.
/// \param obj  This is the object to compare to. It must be of type AliHLTMUONRecHit.
/// \returns  -1 if 'this' is smaller than 'obj', 1 if greater and zero if both
///      objects are the same.

        if (obj->IsA() == AliHLTMUONRecHit::Class())
        {
                const AliHLTMUONRecHit* h = static_cast<const AliHLTMUONRecHit*>(obj);
                if (X() < h->X()) return -1;
                if (X() > h->X()) return 1;
                if (Y() < h->Y()) return -1;
                if (Y() > h->Y()) return 1;
                if (Z() < h->Z()) return -1;
                if (Z() > h->Z()) return 1;
                return 0;
        }
        else
        {
                AliError(Form("Do not know how to compare %s to %s.",
                        this->ClassName(),
                        obj->ClassName()
                ));
                return -999;
        }
}


std::ostream& operator << (std::ostream& stream, const AliHLTMUONRecHit::AliChannel& c)
{
/// Stream operator for std::ostream classes.
/// \param stream  The output stream object being written to.
/// \param c  The channel object to print to the stream.
/// \returns  Returns 'stream'.

        stream << "Channel: " << c.fManu << " , " << c.fAddress
                << "; ADC: " << c.fSignal;
        return stream;
}


void AliHLTMUONRecHit::AliChannel::Print(Option_t* option) const
{
/// Prints the details of this channel to standard output (screen).
/// \param option  Can be one of the following:
///           - "compact" - prints in a compact format.
///           - "detail" - prints channel information in a more detailed format.

        using namespace std;
        
        if (    option == NULL or strcmp(option, "") == 0 or
                strcmp(option, "compact") == 0
           )
        {
                cout << *this << endl;
        }
        else if (strcmp(option, "detail") == 0)
        {
                streamsize w = cout.width();
                ios::fmtflags f = cout.flags();
                cout << "MANU = " << fManu << ", Channel address = " << fAddress
                        << ", Signal = " << fSignal
                        << "; Raw data word = " << hex << setw(10) << internal;
                ios::char_type fc = cout.fill('0');
                cout << fRawDataWord << endl;
                cout.fill(fc); // reset fill character
                cout.width(w); // reset the field width to previous value.
                cout.flags(f); // reset the flags to previous values.
        }
        else
        {
                AliError("Unknown option specified. Can only be one of"
                        " 'compact' or 'detail'."
                );
        }
}


Int_t AliHLTMUONRecHit::AliChannel::Compare(const TObject* obj) const
{
/// We compare this object with 'obj' first by MANU number, then by MANU channel
/// address, then ADC signal.
/// \param obj  This is the object to compare to. It must be of type AliHLTMUONRecHit::Channel.
/// \returns  -1 if 'this' is smaller than 'obj', 1 if greater and zero if both
///      objects are the same.

        if (obj->IsA() == AliChannel::Class())
        {
                const AliChannel* c = static_cast<const AliChannel*>(obj);
                if (fManu < c->Manu()) return -1;
                if (fManu > c->Manu()) return 1;
                if (fAddress < c->Address()) return -1;
                if (fAddress > c->Address()) return 1;
                if (fSignal < c->Signal()) return -1;
                if (fSignal > c->Signal()) return 1;
                return 0;
        }
        else
        {
                AliError(Form("Do not know how to compare %s to %s.",
                        this->ClassName(),
                        obj->ClassName()
                ));
                return -999;
        }
}