dasu/UltraFastSim/generateData.cc

// This simple program generates various signal processes for 
// MSSM bbPhi process and its backgrounds.
// It includes the mixing of required level of pileup.
// It then takes pythia output and runs it through very simplistic
// detector simulation using parameterizations, including making
// isolated light leptons, photons, composite tau, jet and b-tagged 
// jet objects.
// It saves the output in root format for later analysis.

using namespace std;
#include <math.h>

#include "Pythia.h"
using namespace Pythia8; 

#include "UltraFastSim.h"
#include "Analysis.h"

int main(int argc, char **argv) {
  // Generator. Process selection. LHC initialization. Histogram.
  Pythia pythia;
  int nEvents = 0;
  int runNumber = 0;
  int meanPileupEventCount = 0;
  if(argc < 3 || argc > 5)
    {
      cerr << "Command syntax: " << argv[0] << " ZHmmbb[...]" << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " ZHeebb[...]" << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " BBHmh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " BBAmh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Zee[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Zmm[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Zeh[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Zmh[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Zhh[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Wen[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Wmn[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Ten[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "or              " << argv[0] << " Tmn[...]   " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
      cerr << "In above e-electron, m-muon, h-hadronic tau. n-neutrino" << endl;
      exit(1);
    }
  else {
    nEvents = atoi(argv[2]);
    if(argc >= 4) runNumber = atoi(argv[3]);
    if(argc >= 5) meanPileupEventCount = atoi(argv[4]);
    if(strncmp(argv[1], "Zee", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
        pythia.readString("PhaseSpace:mHatMin = 60.");    
        pythia.readString("PhaseSpace:mHatMax = -1");    
        pythia.readString("23:onMode = 0");       // Z decays to electrons only
        pythia.readString("23:onIfAny = 11");
      }
    else if(strncmp(argv[1], "Zmm", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
        pythia.readString("PhaseSpace:mHatMin = 60.");    
        pythia.readString("PhaseSpace:mHatMax = -1");    
        pythia.readString("23:onMode = 0");       // Z decays to muons only
        pythia.readString("23:onIfAny = 13");
      }
    else if(strncmp(argv[1], "Zeh", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
        pythia.readString("PhaseSpace:mHatMin = 60.");    
        pythia.readString("PhaseSpace:mHatMax = -1");    
        pythia.readString("23:onMode = 0");       // Z decays to taus only
        pythia.readString("23:onIfAny = 15");
        pythia.readString("15:onMode = 2");       // tau- decays to electrons - second tau decays in all modes
        pythia.readString("15:onIfAny = 11");
      }
    else if(strncmp(argv[1], "Zmh", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
        pythia.readString("PhaseSpace:mHatMin = 60.");    
        pythia.readString("PhaseSpace:mHatMax = -1");    
        pythia.readString("23:onMode = 0");       // Z decays to taus only
        pythia.readString("23:onIfAny = 15");
        pythia.readString("15:onMode = 2");       // tau- decays to muons - second tau decays in all modes
        pythia.readString("15:onIfAny = 13");
      }
    else if(strncmp(argv[1], "Zhh", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
        pythia.readString("PhaseSpace:mHatMin = 60.");    
        pythia.readString("PhaseSpace:mHatMax = -1");    
        pythia.readString("23:onMode = 0");       // Z decays to taus only
        pythia.readString("23:onIfAny = 15");
      }
    else if(strncmp(argv[1], "Wen", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2W = on");
        pythia.readString("24:onMode = 0");       // W decays to electron
        pythia.readString("24:onIfAny = 11");
      }
    else if(strncmp(argv[1], "Wmn", 3) == 0)
      {
        pythia.readString("WeakSingleBoson:ffbar2W = on");
        pythia.readString("24:onMode = 0");       // W decays to muon
        pythia.readString("24:onIfAny = 13");
      }
    else if(strncmp(argv[1], "Ten", 3) == 0)
      {
        pythia.readString("Top:all = on");
        pythia.readString("24:onMode = 2");       // W+ decays to electron
        pythia.readString("24:onIfAny = 11");
      }
    else if(strncmp(argv[1], "Tmn", 3) == 0)
      {
        pythia.readString("Top:all = on");
        pythia.readString("24:onMode = 2");       // W+ decays to muon
        pythia.readString("24:onIfAny = 13");
      }
    else if(strncmp(argv[1], "ZHmmbb", 6) == 0) 
      {
        pythia.readString("HiggsSM:ffbar2HZ = on");
        pythia.readString("25:m0 = 120");
        pythia.readString("25:onMode = 0");      // Higgs decays to bbBar only
        pythia.readString("25:onIfAny = 5");
        pythia.readString("23:onMode = 0");      // Z decays to mu+,mu- only (for trigger)
        pythia.readString("23:onIfAny = 13");
      }
    else if(strncmp(argv[1], "ZHeebb", 6) == 0) 
      {
        pythia.readString("HiggsSM:ffbar2HZ = on");
        pythia.readString("25:m0 = 120");
        pythia.readString("25:onMode = 0");      // Higgs decays to bbBar only
        pythia.readString("25:onIfAny = 5");
        pythia.readString("23:onMode = 0");      // Z decays to e+,e- only (for trigger)
        pythia.readString("23:onIfAny = 11");
      }
    else if(strncmp(argv[1], "BB", 2) == 0)
      {
        pythia.readString("Higgs:useBSM = on");
        pythia.readString("25:m0 = 129");
        pythia.readString("35:m0 = 499.7");
        pythia.readString("36:m0 = 500");
        pythia.readString("37:m0 = 506");
        pythia.readString("HiggsHchg:tanBeta = 30");
        if(strncmp(argv[1], "BBH", 3) == 0) {
          pythia.readString("HiggsBSM:gg2H2bbbar = on");
          pythia.readString("35:onMode = 0");      // H2(H_2) decays only to tau-pairs
          pythia.readString("35:onIfAny = 15");
        }
        else {
          pythia.readString("HiggsBSM:gg2A3bbbar = on");
          pythia.readString("36:onMode = 0");      // A0(H_3) decays only to tau-pairs
          pythia.readString("36:onIfAny = 15");
        }
        if(strncmp(argv[1], "BBHmh", 5) == 0 ||
           strncmp(argv[1], "BBAmh", 5) == 0) {
          pythia.readString("15:onMode = 2");       // tau- decays to muons - second tau decays in all modes
          pythia.readString("15:onIfAny = 13");
        }
      }
    else
      {
        cerr << "Unknown process type " << argv[1] << " - aborting" << endl;
        exit(1);
      }
  }

  // Initialize pythia

  pythia.init( 2212, 2212, 14000.);
  pythia.particleData.listAll();
  Rndm * rndmPtr = &pythia.rndm;
  rndmPtr->init(runNumber);

  // Pileup pythia

  Pythia pileupPythia;
  pileupPythia.readString("SoftQCD:minBias = on");
  pileupPythia.init( 2212, 2212, 14000.);
  pileupPythia.rndm.init(runNumber);

  // Ultra Fast Simulator

  UltraFastSim ufs(rndmPtr);
  Analysis analysis(argv[1], &pythia, &ufs, true);

  // Begin event loop
  for (int iEvent = 0; iEvent < nEvents; ) {

    // Generate event. Skip if error. List first one.
    if (!pythia.next()) continue;

    if(iEvent < 10) pythia.event.list();

    // Add pileup

    int pileupEventCount = 0;
    if(meanPileupEventCount > 0) pileupEventCount = meanPileupEventCount; // * rmdmPtr->pois(); (not available yet)
    for (int puEvent = 0; puEvent < pileupEventCount; ) {
      if(!pileupPythia.next()) continue;
      for(int i = 0; i < pileupPythia.event.size(); i++) {
        Particle& particle = pileupPythia.event[i];
        if(particle.status() > 0) {
          if(particle.isVisible()) {
            if(particle.pT() > 0.5) {
              pythia.event.append(particle);
            }
          }
        }
      }
      puEvent++;
    }

    // Ultra fast simulation

    if(!ufs.run(pythia.event))
      {
        cerr << "Ultra fast simulation failed - aborting" << endl;
        exit(1);
      }

    // Run analysis

    if(!analysis.run())
      {
        cerr << "Analysis failed - aborting" << endl;
        exit(2);
      }

    // End of event loop. Statistics. Histogram. Done.

    if(!(iEvent % 100)) cout << "Processed event " << iEvent << endl;
    iEvent++;
    
  }

  // Save output

  pythia.statistics();
  pileupPythia.statistics();

  return 0;

}
Revision:	1.7
Committed:	Wed Feb 16 00:33:49 2011 UTC (14 years, 3 months ago) by dasu
Content type:	text/plain
Branch:	MAIN
Changes since 1.6:	+1 -14 lines
Log Message:	Made Luk's code compile and run in Analysis.*
#	Content
1	// This simple program generates various signal processes for
2	// MSSM bbPhi process and its backgrounds.
3	// It includes the mixing of required level of pileup.
4	// It then takes pythia output and runs it through very simplistic
5	// detector simulation using parameterizations, including making
6	// isolated light leptons, photons, composite tau, jet and b-tagged
7	// jet objects.
8	// It saves the output in root format for later analysis.
9
10	using namespace std;
11	#include <math.h>
12
13	#include "Pythia.h"
14	using namespace Pythia8;
15
16	#include "UltraFastSim.h"
17	#include "Analysis.h"
18
19	int main(int argc, char **argv) {
20	// Generator. Process selection. LHC initialization. Histogram.
21	Pythia pythia;
22	int nEvents = 0;
23	int runNumber = 0;
24	int meanPileupEventCount = 0;
25	if(argc < 3 \|\| argc > 5)
26	{
27	cerr << "Command syntax: " << argv[0] << " ZHmmbb[...]" << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
28	cerr << "or " << argv[0] << " ZHeebb[...]" << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
29	cerr << "or " << argv[0] << " BBHmh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
30	cerr << "or " << argv[0] << " BBAmh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
31	cerr << "or " << argv[0] << " Zee[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
32	cerr << "or " << argv[0] << " Zmm[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
33	cerr << "or " << argv[0] << " Zeh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
34	cerr << "or " << argv[0] << " Zmh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
35	cerr << "or " << argv[0] << " Zhh[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
36	cerr << "or " << argv[0] << " Wen[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
37	cerr << "or " << argv[0] << " Wmn[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
38	cerr << "or " << argv[0] << " Ten[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
39	cerr << "or " << argv[0] << " Tmn[...] " << " <nEvents> [RandomSeed] [meanPileupEventCount]" << endl;
40	cerr << "In above e-electron, m-muon, h-hadronic tau. n-neutrino" << endl;
41	exit(1);
42	}
43	else {
44	nEvents = atoi(argv[2]);
45	if(argc >= 4) runNumber = atoi(argv[3]);
46	if(argc >= 5) meanPileupEventCount = atoi(argv[4]);
47	if(strncmp(argv[1], "Zee", 3) == 0)
48	{
49	pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
50	pythia.readString("PhaseSpace:mHatMin = 60.");
51	pythia.readString("PhaseSpace:mHatMax = -1");
52	pythia.readString("23:onMode = 0"); // Z decays to electrons only
53	pythia.readString("23:onIfAny = 11");
54	}
55	else if(strncmp(argv[1], "Zmm", 3) == 0)
56	{
57	pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
58	pythia.readString("PhaseSpace:mHatMin = 60.");
59	pythia.readString("PhaseSpace:mHatMax = -1");
60	pythia.readString("23:onMode = 0"); // Z decays to muons only
61	pythia.readString("23:onIfAny = 13");
62	}
63	else if(strncmp(argv[1], "Zeh", 3) == 0)
64	{
65	pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
66	pythia.readString("PhaseSpace:mHatMin = 60.");
67	pythia.readString("PhaseSpace:mHatMax = -1");
68	pythia.readString("23:onMode = 0"); // Z decays to taus only
69	pythia.readString("23:onIfAny = 15");
70	pythia.readString("15:onMode = 2"); // tau- decays to electrons - second tau decays in all modes
71	pythia.readString("15:onIfAny = 11");
72	}
73	else if(strncmp(argv[1], "Zmh", 3) == 0)
74	{
75	pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
76	pythia.readString("PhaseSpace:mHatMin = 60.");
77	pythia.readString("PhaseSpace:mHatMax = -1");
78	pythia.readString("23:onMode = 0"); // Z decays to taus only
79	pythia.readString("23:onIfAny = 15");
80	pythia.readString("15:onMode = 2"); // tau- decays to muons - second tau decays in all modes
81	pythia.readString("15:onIfAny = 13");
82	}
83	else if(strncmp(argv[1], "Zhh", 3) == 0)
84	{
85	pythia.readString("WeakSingleBoson:ffbar2gmZ = on");
86	pythia.readString("PhaseSpace:mHatMin = 60.");
87	pythia.readString("PhaseSpace:mHatMax = -1");
88	pythia.readString("23:onMode = 0"); // Z decays to taus only
89	pythia.readString("23:onIfAny = 15");
90	}
91	else if(strncmp(argv[1], "Wen", 3) == 0)
92	{
93	pythia.readString("WeakSingleBoson:ffbar2W = on");
94	pythia.readString("24:onMode = 0"); // W decays to electron
95	pythia.readString("24:onIfAny = 11");
96	}
97	else if(strncmp(argv[1], "Wmn", 3) == 0)
98	{
99	pythia.readString("WeakSingleBoson:ffbar2W = on");
100	pythia.readString("24:onMode = 0"); // W decays to muon
101	pythia.readString("24:onIfAny = 13");
102	}
103	else if(strncmp(argv[1], "Ten", 3) == 0)
104	{
105	pythia.readString("Top:all = on");
106	pythia.readString("24:onMode = 2"); // W+ decays to electron
107	pythia.readString("24:onIfAny = 11");
108	}
109	else if(strncmp(argv[1], "Tmn", 3) == 0)
110	{
111	pythia.readString("Top:all = on");
112	pythia.readString("24:onMode = 2"); // W+ decays to muon
113	pythia.readString("24:onIfAny = 13");
114	}
115	else if(strncmp(argv[1], "ZHmmbb", 6) == 0)
116	{
117	pythia.readString("HiggsSM:ffbar2HZ = on");
118	pythia.readString("25:m0 = 120");
119	pythia.readString("25:onMode = 0"); // Higgs decays to bbBar only
120	pythia.readString("25:onIfAny = 5");
121	pythia.readString("23:onMode = 0"); // Z decays to mu+,mu- only (for trigger)
122	pythia.readString("23:onIfAny = 13");
123	}
124	else if(strncmp(argv[1], "ZHeebb", 6) == 0)
125	{
126	pythia.readString("HiggsSM:ffbar2HZ = on");
127	pythia.readString("25:m0 = 120");
128	pythia.readString("25:onMode = 0"); // Higgs decays to bbBar only
129	pythia.readString("25:onIfAny = 5");
130	pythia.readString("23:onMode = 0"); // Z decays to e+,e- only (for trigger)
131	pythia.readString("23:onIfAny = 11");
132	}
133	else if(strncmp(argv[1], "BB", 2) == 0)
134	{
135	pythia.readString("Higgs:useBSM = on");
136	pythia.readString("25:m0 = 129");
137	pythia.readString("35:m0 = 499.7");
138	pythia.readString("36:m0 = 500");
139	pythia.readString("37:m0 = 506");
140	pythia.readString("HiggsHchg:tanBeta = 30");
141	if(strncmp(argv[1], "BBH", 3) == 0) {
142	pythia.readString("HiggsBSM:gg2H2bbbar = on");
143	pythia.readString("35:onMode = 0"); // H2(H_2) decays only to tau-pairs
144	pythia.readString("35:onIfAny = 15");
145	}
146	else {
147	pythia.readString("HiggsBSM:gg2A3bbbar = on");
148	pythia.readString("36:onMode = 0"); // A0(H_3) decays only to tau-pairs
149	pythia.readString("36:onIfAny = 15");
150	}
151	if(strncmp(argv[1], "BBHmh", 5) == 0 \|\|
152	strncmp(argv[1], "BBAmh", 5) == 0) {
153	pythia.readString("15:onMode = 2"); // tau- decays to muons - second tau decays in all modes
154	pythia.readString("15:onIfAny = 13");
155	}
156	}
157	else
158	{
159	cerr << "Unknown process type " << argv[1] << " - aborting" << endl;
160	exit(1);
161	}
162	}
163
164	// Initialize pythia
165
166	pythia.init( 2212, 2212, 14000.);
167	pythia.particleData.listAll();
168	Rndm * rndmPtr = &pythia.rndm;
169	rndmPtr->init(runNumber);
170
171	// Pileup pythia
172
173	Pythia pileupPythia;
174	pileupPythia.readString("SoftQCD:minBias = on");
175	pileupPythia.init( 2212, 2212, 14000.);
176	pileupPythia.rndm.init(runNumber);
177
178	// Ultra Fast Simulator
179
180	UltraFastSim ufs(rndmPtr);
181	Analysis analysis(argv[1], &pythia, &ufs, true);
182
183	// Begin event loop
184	for (int iEvent = 0; iEvent < nEvents; ) {
185
186	// Generate event. Skip if error. List first one.
187	if (!pythia.next()) continue;
188
189	if(iEvent < 10) pythia.event.list();
190
191	// Add pileup
192
193	int pileupEventCount = 0;
194	if(meanPileupEventCount > 0) pileupEventCount = meanPileupEventCount; // * rmdmPtr->pois(); (not available yet)
195	for (int puEvent = 0; puEvent < pileupEventCount; ) {
196	if(!pileupPythia.next()) continue;
197	for(int i = 0; i < pileupPythia.event.size(); i++) {
198	Particle& particle = pileupPythia.event[i];
199	if(particle.status() > 0) {
200	if(particle.isVisible()) {
201	if(particle.pT() > 0.5) {
202	pythia.event.append(particle);
203	}
204	}
205	}
206	}
207	puEvent++;
208	}
209
210	// Ultra fast simulation
211
212	if(!ufs.run(pythia.event))
213	{
214	cerr << "Ultra fast simulation failed - aborting" << endl;
215	exit(1);
216	}
217
218	// Run analysis
219
220	if(!analysis.run())
221	{
222	cerr << "Analysis failed - aborting" << endl;
223	exit(2);
224	}
225
226	// End of event loop. Statistics. Histogram. Done.
227
228	if(!(iEvent % 100)) cout << "Processed event " << iEvent << endl;
229	iEvent++;
230
231	}
232
233	// Save output
234
235	pythia.statistics();
236	pileupPythia.statistics();
237
238	return 0;
239
240	}