/*****************************************************************************
* Project: RooFit *
* Package: RooFitModels *
* File: $Id: RooBlindTools.cc,v 1.14 2005/06/20 15:51:06 wverkerke Exp $
* Authors: *
* AR, Aaron Roodman, Stanford University, roodman@slac.stanford.edu *
* WV, Wouter Verkerke, UC Santa Barbara, verkerke@slac.stanford.edu *
* *
* Copyright (c) 2000-2005, Regents of the University of California *
* and Stanford University. All rights reserved. *
* *
* Redistribution and use in source and binary forms, *
* with or without modification, are permitted according to the terms *
* listed in LICENSE (http://roofit.sourceforge.net/license.txt) *
*****************************************************************************/
//-----------------------
// This Class's Header --
//-----------------------
#include "RooFit.h"
#include "RooBlindTools.h"
#include "RooBlindTools.h"
#include "RooErrorHandler.h"
#include "Riostream.h"
#include <fstream>
#include <math.h>
#include <string.h>
#include <ctype.h>
ClassImp(RooBlindTools)
//----------------
// Constructors --
//----------------
RooBlindTools::RooBlindTools(const char *stSeed, blindMode Mode,
Double_t centralValue, Double_t sigmaOffset, Bool_t s2bMode) :
_PrecisionOffsetScale(sigmaOffset),
_PrecisionCentralValue(centralValue),
_mode(Mode),
_s2bMode(s2bMode)
{
setup(stSeed);
}
RooBlindTools::RooBlindTools(const RooBlindTools& blindTool):
_PrecisionOffsetScale(blindTool.getPrecisionOffsetScale()),
_PrecisionCentralValue(blindTool.getPrecisionCentralValue()),
_mode(blindTool.mode()),
_s2bMode(blindTool._s2bMode)
{
setup(blindTool.stSeed());
}
void RooBlindTools::setup(const char *stSeed)
{
_stSeed = stSeed;
_DeltaZScale = 1.56;
_DeltaZOffset = _DeltaZScale*MakeOffset("abcdefghijklmnopqrstuvwxyz");
_DeltaZSignFlip = MakeSignFlip("ijklmnopqrstuvwxyzabcdefgh");
_AsymOffset = MakeGaussianOffset("opqrstuvwxyzabcdefghijklmn");
_AsymSignFlip = MakeSignFlip("zyxwvutsrqponmlkjihgfedcba");
_DeltaMScale = 0.1;
_DeltaMOffset = _DeltaMScale*MakeOffset("opqrstuvwxyzabcdefghijklmn");
_MysteryPhase = 3.14159 *
MakeOffset("wxyzabcdefghijklmnopqrstuv");
if (_s2bMode) {
_PrecisionSignFlip = MakeSignFlip("zyxwvutsrqponmlkjihgfedcba");
} else {
_PrecisionSignFlip = MakeSignFlip("klmnopqrstuvwxyzabcdefghij");
}
_PrecisionOffset = _PrecisionOffsetScale*MakeGaussianOffset("opqrstuvwxyzabcdefghijklmn");
_PrecisionUniform = _PrecisionOffsetScale*MakeOffset("jihgfedcbazyxwvutsrqponmlk");
_STagConstant = Randomizer("fghijklmnopqrstuvwxyzabcde");
}
//--------------
// Destructor --
//--------------
RooBlindTools::~RooBlindTools(){}
//-------------
// Functions --
//-------------
Double_t RooBlindTools::HideDeltaZ(Double_t DeltaZ, Double_t STag)const{
Int_t sTag = SignOfTag(STag);
Double_t DeltaZPrime = _DeltaZSignFlip*DeltaZ*sTag + _DeltaZOffset;
return DeltaZPrime;
}
Double_t RooBlindTools::HiDelZPdG(Double_t DeltaZ, Double_t STag, Double_t PdG) const{
Int_t sTag = SignOfTag(STag);
Double_t DeltaZPrime = _DeltaZSignFlip*(DeltaZ - PdG)*sTag + _DeltaZOffset;
return DeltaZPrime;
}
Double_t RooBlindTools::UnHideDeltaZ(Double_t DeltaZPrime, Double_t STag) const{
Int_t sTag = SignOfTag(STag);
Double_t DeltaZ = (DeltaZPrime - _DeltaZOffset)/(sTag*_DeltaZSignFlip);
return DeltaZ;
}
Double_t RooBlindTools::UnHiDelZPdG(Double_t DeltaZPrime, Double_t STag, Double_t PdG) const{
Int_t sTag = SignOfTag(STag);
Double_t DeltaZ = PdG + (DeltaZPrime - _DeltaZOffset)/(sTag*_DeltaZSignFlip);
return DeltaZ;
}
Double_t RooBlindTools::UnHideAsym(Double_t AsymPrime) const{
if(mode()==dataonly) return AsymPrime;
Double_t Asym = (AsymPrime - _AsymOffset)/_AsymSignFlip;
return Asym;
}
Double_t RooBlindTools::HideAsym(Double_t Asym) const{
if(mode()==dataonly) return Asym;
Double_t AsymPrime = Asym*_AsymSignFlip + _AsymOffset;
return AsymPrime;
}
Double_t RooBlindTools::UnHideDeltaM(Double_t DeltaMPrime) const{
if(mode()==dataonly) return DeltaMPrime;
Double_t DeltaM = DeltaMPrime - _DeltaMOffset;
return DeltaM;
}
Double_t RooBlindTools::HideDeltaM(Double_t DeltaM) const{
if(mode()==dataonly) return DeltaM;
Double_t DeltaMPrime = DeltaM + _DeltaMOffset;
return DeltaMPrime;
}
Double_t RooBlindTools::UnHiAsPdG(Double_t AsymPrime, Double_t PdG) const{
if(mode()==dataonly) return AsymPrime;
Double_t Asym = PdG + (AsymPrime - _AsymOffset)/_AsymSignFlip;
return Asym;
}
Double_t RooBlindTools::MysteryPhase() const{
if(mode()==dataonly) return 0.0;
return _MysteryPhase;
}
Double_t RooBlindTools::HiAsPdG(Double_t Asym, Double_t PdG) const{
if(mode()==dataonly) return Asym;
Double_t AsymPrime = (Asym - PdG)*_AsymSignFlip + _AsymOffset;
return AsymPrime;
}
Double_t RooBlindTools::UnHidePrecision(Double_t PrecisionPrime) const{
if(mode()==dataonly) return PrecisionPrime;
Double_t Precision(0.);
if (_PrecisionSignFlip>0) {
Precision = PrecisionPrime - _PrecisionOffset;
}
else {
Precision = 2.0*_PrecisionCentralValue - PrecisionPrime + _PrecisionOffset;
}
return Precision;
}
Double_t RooBlindTools::HidePrecision(Double_t Precision) const{
if(mode()==dataonly) return Precision;
Double_t PrecisionPrime(0.);
if (_PrecisionSignFlip>0) {
PrecisionPrime = Precision + _PrecisionOffset;
}
else {
PrecisionPrime = 2.0*_PrecisionCentralValue - Precision + _PrecisionOffset;
}
return PrecisionPrime;
}
Double_t RooBlindTools::UnHideOffset(Double_t PrecisionPrime) const{
if(mode()==dataonly) return PrecisionPrime;
return PrecisionPrime - _PrecisionOffset;
}
Double_t RooBlindTools::HideOffset(Double_t Precision) const{
if(mode()==dataonly) return Precision;
return Precision + _PrecisionOffset;
}
Double_t RooBlindTools::UnHideUniform(Double_t PrecisionPrime) const{
if(mode()==dataonly) return PrecisionPrime;
return PrecisionPrime - _PrecisionUniform;
}
Double_t RooBlindTools::HideUniform(Double_t Precision) const{
if(mode()==dataonly) return Precision;
return Precision + _PrecisionUniform;
}
Double_t RooBlindTools::RandomizeTag(Double_t STag, Int_t EventNumber) const{
Int_t Seed = EventNumber % 7997 + 2;
Double_t r = PseudoRandom(Seed);
Double_t STagPrime(0.0);
if (r < _STagConstant){
STagPrime = STag;
} else {
STagPrime = -1.0 * STag ;
}
return STagPrime;
}
Double_t RooBlindTools::Randomizer(const char *StringAlphabet) const{
char lowerseed[1024] ;
strcpy(lowerseed,_stSeed) ;
Int_t lengthSeed = strlen(lowerseed);
for (Int_t j=0; j<lengthSeed; j++){
lowerseed[j] =tolower(_stSeed[j]);
}
Int_t sumSeed = 0;
for (Int_t i=0; i<lengthSeed; i++){
for (Int_t iAlphabet=0; iAlphabet<26; iAlphabet++){
if ( lowerseed[i] == StringAlphabet[iAlphabet] ){
if (_s2bMode) {
sumSeed = (iAlphabet<<(5*(i%3)))^sumSeed;
} else {
sumSeed = sumSeed + iAlphabet ;
}
}
}
}
if (lengthSeed<5 || ((sumSeed<1 || sumSeed>8000)&&!_s2bMode)) {
cout<< "RooBlindTools::Randomizer: Your String Seed is Bad: '" << _stSeed << "'" << endl ;
RooErrorHandler::softAbort() ;
}
Int_t ia = 8121;
Int_t ic = 28411;
Int_t im = 134456;
UInt_t jRan = (sumSeed*ia + ic) % im;
jRan = (jRan*ia + ic) % im;
jRan = (jRan*ia + ic) % im;
jRan = (jRan*ia + ic) % im;
Double_t theRan = (float) jRan / (float) im;
return theRan; //theRan is between 0.0 - 1.0
}
Double_t RooBlindTools::PseudoRandom(Int_t Seed) const{
if (Seed<1 || Seed>8000 ) {
cout<< "RooBlindTools::PseudoRandom: Your integer Seed is Bad" <<endl;
}
Int_t ia = 8121;
Int_t ic = 28411;
Int_t im = 134456;
UInt_t jRan = (Seed*ia + ic) % im;
jRan = (jRan*ia + ic) % im;
jRan = (jRan*ia + ic) % im;
jRan = (jRan*ia + ic) % im;
Double_t theRan = (float) jRan / (float) im;
return theRan; //theRan is between 0.0 - 1.0
}
Double_t RooBlindTools::MakeOffset(const char *StringAlphabet) const{
Double_t theRan = Randomizer(StringAlphabet);
Double_t theOffset = (2.0)*theRan - (1.0);
return theOffset; //theOffset lies between -1.0 and 1.0
}
Double_t RooBlindTools::MakeGaussianOffset(const char *StringAlphabet) const{
Double_t theRan1 = Randomizer(StringAlphabet);
Double_t theRan2 = Randomizer("cdefghijklmnopqrstuvwxyzab");
if (theRan1==0.0 || theRan1==1.0){
theRan1 = 0.5;
}
if (theRan2==0.0 || theRan2==1.0){
theRan2 = 0.5;
}
Double_t theOffset = sin(2.0*3.14159*theRan1)*sqrt(-2.0*log(theRan2));
return theOffset; //theOffset is Gaussian with mean 0, sigma 1
}
Double_t RooBlindTools::MakeSignFlip(const char *StringAlphabet) const{
Double_t theRan = Randomizer(StringAlphabet);
Double_t theSignFlip = 1.0;
if (theRan>0.5){
theSignFlip = 1.0;
} else {
theSignFlip = -1.0;
}
return theSignFlip; //theSignFlip is = +1 or -1
}
Int_t RooBlindTools::SignOfTag(Double_t STag) const{
Int_t sTag;
if (STag < 0.0){
sTag = -1;
}
else if (STag > 0.0) {
sTag = 1;
}
else {
sTag = 1;
}
return sTag;
}
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