/[PAMELA software]/PamVMC_update/src/PamVMCOptMgr.cxx
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Contents of /PamVMC_update/src/PamVMCOptMgr.cxx

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Revision 1.1.1.1 - (show annotations) (download) (vendor branch)
Tue Oct 15 15:51:43 2013 UTC (11 years, 1 month ago) by formato
Branch: MAIN, rel
CVS Tags: reltag, HEAD
Changes since 1.1: +0 -0 lines
Error occurred while calculating annotation data.
PamVMC update

1 #include <iostream>
2 #include <TString.h>
3 #include <TPDGCode.h>
4 #include <TMath.h>
5 #include "PamVMCOptMgr.h"
6
7 ClassImp(PamVMCOptMgr)
8
9 using std::cout;
10 using std::endl;
11 using TMath::Pi;
12 using TMath::TwoPi;
13
14 PamVMCOptMgr * PamVMCOptMgr::fopt = 0;
15
16 PamVMCOptMgr * PamVMCOptMgr::Instance(){
17
18 if(fopt == 0) {
19 fopt = new PamVMCOptMgr();
20 }
21 return fopt;
22 }
23
24 void PamVMCOptMgr::ParseOptions(TXMLNode *node){
25
26 foptmap.DeleteAll();
27
28
29 if( node ){
30 if (strcmp(node->GetNodeName(), "Main_settings") == 0) {
31
32 TXMLNode* ch_node=node->GetChildren();
33 for (; ch_node; ch_node = ch_node->GetNextNode()) {
34 if (ch_node->GetNodeType() == TXMLNode::kXMLElementNode) { // Element Node
35 if (strcmp(ch_node->GetNodeName(), "Init_mode_set") == 0) {
36 SetOpt("Init_mode_set",ParseInitOpt(ch_node->GetChildren()));
37 }
38 if (strcmp(ch_node->GetNodeName(), "Random_mode_set") == 0) {
39 SetOpt("Random_mode_set",ParseRandomOpt(ch_node->GetChildren()));
40 }
41 if (strcmp(ch_node->GetNodeName(), "Runtime_mode_set") == 0) {
42 SetOpt("Runtime_mode_set",ParseRuntimeOpt(ch_node->GetChildren()));
43 }
44 if (strcmp(ch_node->GetNodeName(), "Primary_mode_set") == 0) {
45 SetOpt("Primary_mode_set",ParsePrimaryOpt(ch_node->GetChildren()));
46 }
47 }
48 }
49 }
50 } else {
51 SetOpt("Init_mode_set",ParseInitOpt(0));
52 SetOpt("Random_mode_set",ParseRandomOpt(0));
53 SetOpt("Runtime_mode_set",ParseRuntimeOpt(0));
54 SetOpt("Primary_mode_set",ParsePrimaryOpt(0));
55 }
56 }
57
58
59 pInitModeOpt * PamVMCOptMgr::ParseInitOpt(TXMLNode *node){
60 //defaults
61 TString PAM_VMC = gSystem->Getenv("PAM_VMC");
62 TString path = PAM_VMC+"/config";
63 TString path_tmp = PAM_VMC+"/examples";
64 TString path_out = PAM_VMC+"/examples";
65 TString filepattern = "out";
66 TString C_name = "g4Config.C";
67 TString in_name = "g4config2.in";
68 Bool_t use_cookies = 0;
69 Bool_t use_nocalo = kFALSE;
70
71
72 if( node ){
73 for ( ; node; node = node->GetNextNode()) {
74 if ( (node->GetNodeType() == TXMLNode::kXMLElementNode) ) { // Element Node
75 TString val = node->GetText();
76 if( val.Length()){
77 if (strcmp(node->GetNodeName(), "g4Config_path") == 0){
78 path = val;
79 }
80 if (strcmp(node->GetNodeName(), "g4Config_C_name") == 0){
81 C_name = val;
82 }
83 if (strcmp(node->GetNodeName(), "g4Config_in_name") == 0){
84 in_name = val;
85 }
86 if (strcmp(node->GetNodeName(), "use_pbs_jobcookie") == 0){
87 use_cookies = kTRUE;
88 TXMLNode *node_ch = node->GetChildren();
89 for ( ; node_ch; node_ch = node_ch->GetNextNode()) {
90 if (strcmp(node_ch->GetNodeName(), "out_tmp_dir") == 0){
91 path_tmp = node_ch->GetText();
92 }
93 }
94 }
95 if (strcmp(node->GetNodeName(), "out_path") == 0){
96 path_out = val;
97 }
98 if (strcmp(node->GetNodeName(), "out_file_pattern") == 0){
99 filepattern = val;
100 }
101 }
102 if (strcmp(node->GetNodeName(), "dont_use_pbs_jobcookie") == 0){
103 use_cookies = kFALSE;
104 }
105 if (strcmp(node->GetNodeName(), "use_nocalo") == 0){
106 cout << "Found nocalo flag" << endl;
107 use_nocalo = kTRUE;
108 }
109 }
110 }
111 }
112 return new pInitModeOpt( path, C_name, in_name, use_cookies, use_nocalo, path_tmp, path_out, filepattern );
113 }
114
115
116 pRandomModeOpt * PamVMCOptMgr::ParseRandomOpt(TXMLNode *node){
117 //defaults
118 Bool_t read_f_mode = kFALSE;
119 TString PAM_VMC = gSystem->Getenv("PAM_VMC");
120 TString read_g4_seed_path=PAM_VMC+"/examples/radom_dump.root";
121 Bool_t custom_gen = kFALSE;
122 Int_t seed1 = 1000;
123 Int_t seed2 = 1001;
124 Bool_t write_mode = kFALSE;
125 TString write_path = PAM_VMC+"/examples";
126 TString writename = "random_dump.root";
127
128 if( node ){
129 for ( ; node; node = node->GetNextNode()) {
130 if ( (node->GetNodeType() == TXMLNode::kXMLElementNode) ) { // Element Node
131 TString val = node->GetText();
132 if( val.Length()){
133 if (strcmp(node->GetNodeName(), "generate_g4_seed") == 0){
134 read_f_mode = kFALSE;
135 TXMLNode *node_ch = node->GetChildren();
136 for ( ; node_ch; node_ch = node_ch->GetNextNode()) {
137 if (strcmp(node_ch->GetNodeName(), "auto_g4_seed") == 0){
138 custom_gen = kFALSE;
139 }
140 if (strcmp(node_ch->GetNodeName(), "dont_save_g4rnd_in_file") == 0){
141 write_mode = kFALSE;
142 }
143 if (strcmp(node_ch->GetNodeName(), "save_g4rnd_in_file") == 0){
144 write_mode = kTRUE;
145 TXMLNode *node_ch2 = node_ch->GetChildren();
146 for ( ; node_ch2; node_ch2 = node_ch2->GetNextNode()) {
147 TString val_ch2 = node_ch2->GetText();
148 if (val_ch2.Length()){
149 if (strcmp(node_ch2->GetNodeName(), "g4_rnd_path") == 0){
150 write_path = node_ch2->GetText();
151 }
152 if (strcmp(node_ch2->GetNodeName(), "g4_rnd_filename") == 0){
153 writename = node_ch2->GetText();
154 }
155 }
156 }
157 }
158
159 TString val_ch = node_ch->GetText();
160 if (val_ch.Length()){
161 if (strcmp(node_ch->GetNodeName(), "init_g4_seed1") == 0){
162 custom_gen = kTRUE;
163 seed1 = atoi(val_ch);
164 }
165 if (strcmp(node_ch->GetNodeName(), "init_g4_seed2") == 0){
166 custom_gen = kTRUE;
167 seed2 = atoi(val_ch);
168 }
169 }
170 }
171 }
172 if (strcmp(node->GetNodeName(), "read_g4_seed_filepath") == 0){
173 read_f_mode = kTRUE;
174 read_g4_seed_path = val;
175 }
176
177
178 }
179 }
180 }
181 }
182
183 return new pRandomModeOpt( read_f_mode, read_g4_seed_path, custom_gen, seed1, seed2, write_mode, write_path, writename );
184 }
185
186 pRuntimeModeOpt * PamVMCOptMgr::ParseRuntimeOpt(TXMLNode *node){
187 //defaults
188 Int_t verbose_lev = 0;
189 Int_t maxstep = 50000;
190 Save_cond sv_c = EVERYTHING;
191 Save_mode sv_m = ALL_DETECTORS;
192
193
194 if( node ){
195 for ( ; node; node = node->GetNextNode()) {
196 if ( (node->GetNodeType() == TXMLNode::kXMLElementNode) ) { // Element Node
197 TString val = node->GetText();
198 if( val.Length()){
199 if (strcmp(node->GetNodeName(), "verbose_level") == 0){
200 verbose_lev = atoi(val);
201 }
202 if (strcmp(node->GetNodeName(), "maxstep") == 0){
203 maxstep = atoi(val);
204 }
205 if (strcmp(node->GetNodeName(), "save_condition") == 0){
206 TXMLNode *node_ch = node->GetChildren();
207 for ( ; node_ch; node_ch = node_ch->GetNextNode()) {
208 if (strcmp(node_ch->GetNodeName(), "accept_only") == 0) sv_c = ACCEPT_ONLY;
209 if (strcmp(node_ch->GetNodeName(), "trig_only") == 0) sv_c = TRIG_ONLY;
210 if (strcmp(node_ch->GetNodeName(), "everything") == 0) sv_c = EVERYTHING;
211 }
212 }
213 if (strcmp(node->GetNodeName(), "save_mode") == 0){
214 TXMLNode *node_ch = node->GetChildren();
215 for ( ; node_ch; node_ch = node_ch->GetNextNode()) {
216 if (strcmp(node_ch->GetNodeName(), "all_detectors") == 0) sv_m = ALL_DETECTORS;
217 if (strcmp(node_ch->GetNodeName(), "only_primaries") == 0) sv_m = ONLY_PRIMARIES;
218 }
219 }
220
221 }
222
223 }
224 }
225 }
226 return new pRuntimeModeOpt(verbose_lev, maxstep, sv_c, sv_m );
227 }
228
229
230 pPrimaryModeOpt * PamVMCOptMgr::ParsePrimaryOpt(TXMLNode *node){
231 //defaults
232 Bool_t read_mode = kFALSE; //0 - generate primary kinematics, 1 -read from file;
233 TString read_path = "/set/path/to/kine.root"; // path to file with primary kinematics
234 Int_t pdg = kProton; //PDG code of primary
235 Bool_t spt_mode = kTRUE; // 0 - dome; 1 - user defined angles and vertex point
236 Bool_t vert_mode = kFALSE; //0 - fixed point, 1 - vertex box
237 Bool_t ang_mode = kFALSE; // 0 - fixed angle, 1 - isotropic
238 Momentum_mode mom_mode = FIXED; // fixed, flat, powerlaw
239
240 Momentum_units units = GV_R; // GV_p, GV_R, GeV_T
241 Double_t mom_fix = 1.; //Momentum, Rig, Kine
242 Double_t mom_min = 1.;
243 Double_t mom_max = 2.;
244 Double_t gamma = 2.75;
245
246 Nevents_mode nv_m = NEV_TOT; //Total, accept, trigg
247 Int_t nevents = 100; //number of events
248
249 //Spatial and angular coordinates for fixed-isotropic case
250 Double_t x0 = 0.;
251 Double_t y0 = 0.;
252 Double_t z0 = 130.;
253 Double_t x0_min = -40.;
254 Double_t x0_max = 40.;
255 Double_t y0_min = -40.;
256 Double_t y0_max = 40.;
257 Double_t z0_min = 130.;
258 Double_t z0_max = 130.;
259 Double_t theta = 0.;
260 Double_t phi = 0.;
261 Double_t theta_min = 0.;
262 Double_t theta_max = Pi()/2.;
263 Double_t phi_min = 0.;
264 Double_t phi_max = TwoPi();
265
266 if( node ){
267 for ( ; node; node = node->GetNextNode()) {
268 if ( (node->GetNodeType() == TXMLNode::kXMLElementNode) ) { // Element Node
269 if (strcmp(node->GetNodeName(), "read_from_file") == 0){
270 read_mode = kTRUE;
271 TString val = node->GetText();
272 if (val.Length() ) read_path = val;
273 }
274 if (strcmp(node->GetNodeName(), "define_primaries") == 0){
275 read_mode = kFALSE;
276 TXMLNode *node_ch = node->GetChildren();
277 for ( ; node_ch; node_ch = node_ch->GetNextNode()) {
278 if (strcmp(node_ch->GetNodeName(), "particle_type") == 0){
279 TXMLNode *node_ch2 = node_ch->GetChildren();
280 for ( ; node_ch2; node_ch2 = node_ch2->GetNextNode()) {
281 if (strcmp(node_ch2->GetNodeName(), "kProton") == 0){
282 pdg = kProton;
283 }
284 if (strcmp(node_ch2->GetNodeName(), "H-2") == 0){
285 pdg = 1000010020;
286 }
287 if (strcmp(node_ch2->GetNodeName(), "H-3") == 0){
288 pdg = 1000010030;
289 }
290 if (strcmp(node_ch2->GetNodeName(), "He-3") == 0){
291 pdg = 1000020030;
292 }
293 if (strcmp(node_ch2->GetNodeName(), "He-4") == 0){
294 pdg = 1000020040;
295 }
296 if (strcmp(node_ch2->GetNodeName(), "user_pdg") == 0){
297 TString val2 = node_ch2->GetText();
298 if( val2.Length() ) pdg = atoi(val2);
299 }
300 }
301 }
302 if (strcmp(node_ch->GetNodeName(), "gen_mode") == 0){
303 TXMLNode *node_ch2 = node_ch->GetChildren();
304 for ( ; node_ch2; node_ch2 = node_ch2->GetNextNode()) {
305 if (strcmp(node_ch2->GetNodeName(), "user_defined") == 0){
306 spt_mode = kTRUE;
307 TXMLNode *node_ch3 = node_ch2->GetChildren();
308 for ( ; node_ch3; node_ch3 = node_ch3->GetNextNode()) {
309
310 //spatial
311 if (strcmp(node_ch3->GetNodeName(), "vertex_mode") == 0){
312 TXMLNode *node_ch4 = node_ch3->GetChildren();
313 for ( ; node_ch4; node_ch4 = node_ch4->GetNextNode()) {
314 if (strcmp(node_ch4->GetNodeName(), "vertex_box") == 0){
315 vert_mode = kTRUE;
316 TXMLNode *node_ch5 = node_ch4->GetChildren();
317 for ( ; node_ch5; node_ch5 = node_ch5->GetNextNode()) {
318 TString val5 = node_ch5->GetText();
319 if( val5.Length()){
320 if (strcmp(node_ch5->GetNodeName(), "x0_min") == 0) x0_min = atof(val5);
321 if (strcmp(node_ch5->GetNodeName(), "x0_max") == 0) x0_max = atof(val5);
322 if (strcmp(node_ch5->GetNodeName(), "y0_min") == 0) y0_min = atof(val5);
323 if (strcmp(node_ch5->GetNodeName(), "y0_max") == 0) y0_max = atof(val5);
324 if (strcmp(node_ch5->GetNodeName(), "z0_min") == 0) z0_min = atof(val5);
325 if (strcmp(node_ch5->GetNodeName(), "z0_max") == 0) z0_max = atof(val5);
326 }
327 }
328 }
329 if (strcmp(node_ch4->GetNodeName(), "vertex_fix_point") == 0){
330 vert_mode = kFALSE;
331 TXMLNode *node_ch5 = node_ch4->GetChildren();
332 for ( ; node_ch5; node_ch5 = node_ch5->GetNextNode()) {
333 TString val5 = node_ch5->GetText();
334 if( val5.Length()){
335 if (strcmp(node_ch5->GetNodeName(), "x0") == 0) x0 = atof(val5);
336 if (strcmp(node_ch5->GetNodeName(), "y0") == 0) y0 = atof(val5);
337 if (strcmp(node_ch5->GetNodeName(), "z0") == 0) z0 = atof(val5);
338 }
339 }
340 }
341 }
342
343 }
344
345 //angular
346 if (strcmp(node_ch3->GetNodeName(), "ang_mode") == 0){
347 TXMLNode *node_ch4 = node_ch3->GetChildren();
348 for ( ; node_ch4; node_ch4 = node_ch4->GetNextNode()) {
349 if (strcmp(node_ch4->GetNodeName(), "ang_fixed") == 0){
350 ang_mode = kFALSE;
351 TXMLNode *node_ch5 = node_ch4->GetChildren();
352 for ( ; node_ch5; node_ch5 = node_ch5->GetNextNode()) {
353 TString val5 = node_ch5->GetText();
354 if( val5.Length()){
355 if (strcmp(node_ch5->GetNodeName(), "theta") == 0) theta = atof(val5);
356 if (strcmp(node_ch5->GetNodeName(), "phi") == 0) phi = atof(val5);
357 }
358 }
359 }
360 if (strcmp(node_ch4->GetNodeName(), "ang_iso") == 0){
361 ang_mode = kTRUE;
362 TXMLNode *node_ch5 = node_ch4->GetChildren();
363 for ( ; node_ch5; node_ch5 = node_ch5->GetNextNode()) {
364 TString val5 = node_ch5->GetText();
365 if( val5.Length()){
366 if (strcmp(node_ch5->GetNodeName(), "theta_min") == 0) theta_min = atof(val5);
367 if (strcmp(node_ch5->GetNodeName(), "phi_min") == 0) phi_min = atof(val5);
368 if (strcmp(node_ch5->GetNodeName(), "theta_max") == 0) theta_min = atof(val5);
369 if (strcmp(node_ch5->GetNodeName(), "phi_max") == 0) phi_min = atof(val5);
370 }
371 }
372 }
373 }
374
375 }
376
377
378 }
379 }
380
381
382 if (strcmp(node_ch2->GetNodeName(), "dome") == 0){
383 spt_mode = kFALSE;
384 }
385
386 }
387 }
388
389 //momentum mode
390 if (strcmp(node_ch->GetNodeName(), "momentum_mode") == 0){
391 TXMLNode *node_ch2 = node_ch->GetChildren();
392 for ( ; node_ch2; node_ch2 = node_ch2->GetNextNode()) {
393 if (strcmp(node_ch2->GetNodeName(), "momentum_mode_fixed") == 0){
394 mom_mode = FIXED;
395 TXMLNode *node_ch3 = node_ch2->GetChildren();
396 for ( ; node_ch3; node_ch3 = node_ch3->GetNextNode()) {
397 TString val3 = node_ch3->GetText();
398 if( val3.Length()){
399 if (strcmp(node_ch3->GetNodeName(), "P0") == 0) mom_fix = atof(val3);
400 }
401 }
402 }
403
404 if (strcmp(node_ch2->GetNodeName(), "momentum_mode_flat") == 0){
405 mom_mode = FLAT;
406 TXMLNode *node_ch3 = node_ch2->GetChildren();
407 for ( ; node_ch3; node_ch3 = node_ch3->GetNextNode()) {
408 TString val3 = node_ch3->GetText();
409 if( val3.Length()){
410 if (strcmp(node_ch3->GetNodeName(), "P0_min") == 0) mom_min = atof(val3);
411 if (strcmp(node_ch3->GetNodeName(), "P0_max") == 0) mom_max = atof(val3);
412 }
413 }
414 }
415
416 if (strcmp(node_ch2->GetNodeName(), "momentum_mode_powerlaw") == 0){
417 mom_mode = POWERLAW;
418 TXMLNode *node_ch3 = node_ch2->GetChildren();
419 for ( ; node_ch3; node_ch3 = node_ch3->GetNextNode()) {
420 TString val3 = node_ch3->GetText();
421 if( val3.Length()){
422 if (strcmp(node_ch3->GetNodeName(), "P0_min") == 0) mom_min = atof(val3);
423 if (strcmp(node_ch3->GetNodeName(), "P0_max") == 0) mom_max = atof(val3);
424 if (strcmp(node_ch3->GetNodeName(), "gamma") == 0) gamma = atof(val3);
425 }
426 }
427 }
428
429 }
430 }
431 //momentum units
432 if (strcmp(node_ch->GetNodeName(), "momentum_units") == 0){
433 TXMLNode *node_ch2 = node_ch->GetChildren();
434 for ( ; node_ch2; node_ch2 = node_ch2->GetNextNode()) {
435 if (strcmp(node_ch2->GetNodeName(), "GV_p") == 0) units = GV_p;
436 if (strcmp(node_ch2->GetNodeName(), "GV_R") == 0) units = GV_R;
437 if (strcmp(node_ch2->GetNodeName(), "GeV_T") == 0) units = GeV_T;
438 }
439 }
440 //nevents
441 if (strcmp(node_ch->GetNodeName(), "nevents") == 0){
442 TXMLNode *node_ch2 = node_ch->GetChildren();
443 for ( ; node_ch2; node_ch2 = node_ch2->GetNextNode()) {
444 TString val2 = node_ch2->GetText();
445 if (strcmp(node_ch2->GetNodeName(), "nev_tot") == 0) nv_m = NEV_TOT;
446 if (strcmp(node_ch2->GetNodeName(), "nev_accept") == 0) nv_m = NEV_ACCEPT;
447 if (strcmp(node_ch2->GetNodeName(), "nev_trigg") == 0) nv_m = NEV_TRIGG;
448 if(val2.Length()) nevents = atoi(val2);
449 }
450 }
451
452
453 }
454 }
455 }
456 }
457 }
458 return new pPrimaryModeOpt(read_mode, read_path, pdg, spt_mode, vert_mode, ang_mode,
459 mom_mode, units, mom_fix, mom_min, mom_max, gamma, nv_m, nevents, x0, y0, z0,
460 x0_min, x0_max, y0_min, y0_max, z0_min, z0_max,
461 theta, phi, theta_min, theta_max, phi_min, phi_max);
462 }

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