/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
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 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
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 * 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   *
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 * 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.                  *
 **************************************************************************/

/* $Id$ */

/*
  MUONCheckMisAligner: 
  
  This macro performs the misalignment on an existing muon arm geometry
  based on the standard definition of the detector elements in 
  $ALICE_ROOT/MUON/data

  It uses AliMUONGeometryAligner : 
  --> creates a new AliMUONGeometryTransformer and AliMUONGeometryAligner
  --> reads the transformations in from the transform.dat file (make sure that
  this file is the _standard_ one by comparing it to the one in CVS)
  --> creates a second AliMUONGeometryTransformer by misaligning the existing 
  one using AliMUONAligner::MisAlign
  --> User has to specify the magnitude of the alignments, in the Cartesian 
  co-ordiantes (which are used to apply translation misalignments) and in the
  spherical co-ordinates (which are used to apply angular displacements)
  --> User can also set misalignment ranges by hand using the methods : 
  SetMaxCartMisAlig, SetMaxAngMisAlig, SetXYAngMisAligFactor
  (last method takes account of the fact that the misalingment is greatest in 
  the XY plane, since the detection elements are fixed to a support structure
  in this plane. Misalignments in the XZ and YZ plane will be very small 
  compared to those in the XY plane, which are small already - of the order 
  of microns)
  --> Default behavior generates a "residual" misalignment using gaussian
  distributions. Uniform distributions can still be used, see 
  AliMUONGeometryAligner.
  --> User can also generate module misalignments using SetModuleCartMisAlig
  and SetModuleAngMisAlig
  Note : If the detection elements are allowed to be misaligned in all
  directions, this has consequences for the alignment algorithm, which 
  needs to know the number of free parameters. Eric only allowed 3 : 
  x,y,theta_xy, but in principle z and the other two angles are alignable
  as well.  

// Author:Bruce Becker

*/

#if !defined(__CINT__) || defined(__MAKECINT__)

#include "AliMUONGeometryTransformer.h"
#include "AliMUONGeometryMisAligner.h"

#include "AliGeomManager.h"
#include "AliCDBManager.h"
#include "AliCDBMetaData.h"
#include "AliCDBId.h"

#include <TGeoManager.h>
#include <TClonesArray.h>

#endif

void MUONCheckMisAligner(Double_t xcartmisaligm = 0.0, Double_t xcartmisaligw = 0.004, 
			 Double_t ycartmisaligm = 0.0, Double_t ycartmisaligw = 0.003, 
			 Double_t angmisaligm = 0.0, Double_t angmisaligw = 0.0023,
			 TString nameCDB = "ResMisAlignCDB", 
                         const TString& geomFileName = "geometry.root")
{
  
  AliMUONGeometryTransformer *transform = new AliMUONGeometryTransformer();
  transform->LoadGeometryData(geomFileName.Data());

  AliMUONGeometryMisAligner misAligner(xcartmisaligm,xcartmisaligw,
                                       ycartmisaligm,ycartmisaligw,
				       angmisaligm,angmisaligw);

  // Generate mis alignment data

  // Uncomment lines below if you would like to generate module misalignments
  // misAligner.SetModuleCartMisAlig(0.0,0.1,0.0,0.1,0.0,0.1); // Full
  // misAligner.SetModuleAngMisAlig(0.0,0.02,0.0,0.04,0.0,0.02); // Full
  // misAligner.SetModuleCartMisAlig(0.0,0.003,0.0,0.003,0.0,0.003); // Res
  // misAligner.SetModuleAngMisAlig(0.0,0.0006,0.0,0.001,0.0,0.0005); // Res

  AliMUONGeometryTransformer *newTransform = misAligner.MisAlign(transform,true); 
  newTransform->WriteTransformations("transform2.dat");
  newTransform->WriteMisAlignmentData("misalign.root");

  // Apply misAlignment via AliRoot framework
  AliGeomManager::ApplyAlignObjsToGeom(
     *const_cast<TClonesArray*>(newTransform->GetMisAlignmentData()));
  // Save new geometry file
  gGeoManager->Export("geometry2.root");
  
  // Extract new transformations
  AliMUONGeometryTransformer* transform3 = new AliMUONGeometryTransformer();
  transform3->LoadGeometryData("geometry2.root");
  transform3->WriteTransformations("transform3.dat");
               // Check that transform3.dat is equal to transform2.dat

  // Generate misaligned data in local cdb
  const TClonesArray* array = newTransform->GetMisAlignmentData();
   
  TString sLocCDB("local://");
  sLocCDB += nameCDB;
  // CDB manager
  AliCDBManager* cdbManager = AliCDBManager::Instance();
  cdbManager->SetDefaultStorage(sLocCDB.Data());
  
  AliCDBMetaData* cdbData = new AliCDBMetaData();
  cdbData->SetResponsible("Dimuon Offline project");
  cdbData->SetComment("MUON alignment objects with residual misalignment");
  AliCDBId id("MUON/Align/Data", 0, 0); 
  cdbManager->Put(const_cast<TClonesArray*>(array), id, cdbData);

  // To run simulation with misaligned geometry, you have to set
  // the Align option in Config.C:
  // MUON->SetAlign("transform2.dat");
}