Added SetUserDecay routine. When a particle decays the standard MC decay
[u/mrichter/AliRoot.git] / TGeant3 / THIGZ.cxx
CommitLineData
fe4da5cc 1///////////////////////////////////////////////////////////////////////////////
2// //
3// Interface to the HIGZ package for the GEANT drawing package //
4// //
5//Begin_Html
6/*
7<img src="gif/THIGZClass.gif">
8*/
9//End_Html
10// //
11// //
12///////////////////////////////////////////////////////////////////////////////
13
14#include "TROOT.h"
15#include "THIGZ.h"
16#include "TGeant3.h"
17#include "TGraph.h"
18#include "TColor.h"
19#include "TLine.h"
20#include "TPolyLine.h"
21#include "TPolyMarker.h"
22#include "TPaveLabel.h"
23#include "TText.h"
24#include "Rtypes.h"
25#include "AliCallf77.h"
26#include "TPaveTree.h"
27#include <string.h>
28#include <ctype.h>
29
30#ifndef WIN32
31# define hplint hplint_
32# define hplend hplend_
33# define hplfra hplfra_
34# define igmeta igmeta_
35# define iselnt iselnt_
36# define igiwty igiwty_
37# define igqwk igqwk_
38
39# define iacwk iacwk_
40# define iclrwk iclrwk_
41# define iclwk iclwk_
42# define idawk idawk_
43# define ifa ifa_
44# define igbox igbox_
45# define ightor ightor_
46# define igpave igpave_
47# define igpid igpid_
48# define igq igq_
49# define igrng igrng_
50# define igsa igsa_
51# define igset igset_
52# define igterm igterm_
53# define iopwk iopwk_
54# define ipl ipl_
55# define ipm ipm_
56# define irqlc irqlc_
57# define iscr iscr_
58# define isfaci isfaci_
59# define isfais isfais_
60# define isln isln_
61# define ismk ismk_
62# define islwsc islwsc_
63# define isplci isplci_
64# define ispmci ispmci_
65# define istxci istxci_
66# define isvp isvp_
67# define iswn iswn_
68# define itx itx_
69
70#else
71# define iacwk IACWK
72# define iclrwk ICLRWK
73# define iclwk ICLWK
74# define idawk IDAWK
75# define ifa IFA
76# define igbox IGBOX
77# define ightor IGHTOR
78# define igpave IGPAVE
79# define igpid IGPID
80# define igq IGQ
81# define igrng IGRNG
82# define igsa IGSA
83# define igset IGSET
84# define igterm IGTERM
85# define iopwk IOPWK
86# define ipl IPL
87# define ipm IPM
88# define irqlc IRQLC
89# define iscr ISCR
90# define isfaci ISFACI
91# define isfais ISFAIS
92# define isln ISLN
93# define ismk ISMK
94# define islwsc ISLWSC
95# define isplci ISPLCI
96# define ispmci ISPMCI
97# define istxci ISTXCI
98# define isvp ISVP
99# define iswn ISWN
100# define itx ITX
101#endif
102
103static Int_t npid = 0;
104static char cpar[1200];
105
106THIGZ *higz = 0;
107
108ClassImp(THIGZ)
109
110//_______________________________________________________________
111THIGZ::THIGZ()
112 :TCanvas()
113{
114}
115
116//_______________________________________________________________
117THIGZ::THIGZ(Int_t size)
118 :TCanvas("higz","higz",size,size)
119{
120 higz = this;
121 Reset();
122 SetFillColor(10);
123}
124//_______________________________________________________________
125THIGZ::~THIGZ()
126{
127}
128//_______________________________________________________________
129Float_t THIGZ::Get(const char *name)
130{
131 if (!strcmp(name,"FAIS")) return fFAIS;
132 if (!strcmp(name,"FASI")) return fFASI;
133 if (!strcmp(name,"LTYP")) return fLTYP;
134 if (!strcmp(name,"BASL")) return fBASL;
135 if (!strcmp(name,"LWID")) return fLWID;
136 if (!strcmp(name,"MTYP")) return fMTYP;
137 if (!strcmp(name,"MSCF")) return fMSCF;
138 if (!strcmp(name,"PLCI")) return fPLCI;
139 if (!strcmp(name,"PMCI")) return fPMCI;
140 if (!strcmp(name,"FACI")) return fFACI;
141 if (!strcmp(name,"TXCI")) return fTXCI;
142 if (!strcmp(name,"TXAL")) return fTXAL;
143 if (!strcmp(name,"CHHE")) return fCHHE*fY2;
144 if (!strcmp(name,"TANG")) return fTANG;
145 if (!strcmp(name,"TXFP")) return fTXFP;
146 if (!strcmp(name,"BORD")) return fBORD;
147 if (!strcmp(name,"NCOL")) return fNCOL;
148 if (!strcmp(name,"DRMD")) return fDRMD;
149 if (!strcmp(name,"SYNC")) return fSYNC;
150 if (!strcmp(name,"CLIP")) return fCLIP;
151 if (!strcmp(name,"2BUF")) return f2BUF;
152 return -1;
153}
154//_______________________________________________________________
155void THIGZ::Set(const char *name, Float_t val)
156{
157 if (!strcmp(name,"FAIS")) {fFAIS = Int_t(val); return;}
158 if (!strcmp(name,"FASI")) {fFASI = Int_t(val); return;}
159 if (!strcmp(name,"LTYP")) {fLTYP = Int_t(val); return;}
160 if (!strcmp(name,"BASL")) {fBASL = val; return;}
161 if (!strcmp(name,"LWID")) {fLWID = val; if (val <= 0) fLWID=1; return;}
162 if (!strcmp(name,"MTYP")) {fMTYP = Int_t(val); return;}
163 if (!strcmp(name,"MSCF")) {fMSCF = val; return;}
164 if (!strcmp(name,"PLCI")) {fPLCI = Int_t(val); return;}
165 if (!strcmp(name,"PMCI")) {fPMCI = Int_t(val); return;}
166 if (!strcmp(name,"FACI")) {fFACI = Int_t(val)%1000; return;}
167 if (!strcmp(name,"TXCI")) {fTXCI = Int_t(val); return;}
168 if (!strcmp(name,"TXAL")) {
169 Int_t align = Int_t(val);
170 Int_t aligh = align/10;
171 Int_t aligv = align%10;
172 Int_t ah = aligh;
173 Int_t av = aligv;
174 if (aligh == 0) ah = 1;
175 if (aligv == 1 || aligh == 2) av = 3;
176 if (aligv == 3) av = 2;
177 if (aligv == 0) av = 1;
178 fTXAL = 10*ah + av;
179 return;
180 }
181 if (!strcmp(name,"CHHE")) {fCHHE = val/fY2; if (fCHHE <= 0) fCHHE = 0.03; return;}
182 if (!strcmp(name,"TANG")) {fTANG = val; return;}
183 if (!strcmp(name,"TXFP")) {fTXFP = Int_t(val); return;}
184 if (!strcmp(name,"BORD")) {fBORD = Int_t(val); return;}
185 if (!strcmp(name,"NCOL")) {fNCOL = Int_t(val); return;}
186 if (!strcmp(name,"DRMD")) {fDRMD = Int_t(val); return;}
187 if (!strcmp(name,"SYNC")) {fSYNC = Int_t(val); return;}
188 if (!strcmp(name,"CLIP")) {fCLIP = Int_t(val); return;}
189 if (!strcmp(name,"2BUF")) {f2BUF = Int_t(val); return;}
190}
191//_______________________________________________________________
192void THIGZ::Reset(Option_t *)
193{
194 fFAIS = 0;
195 fFASI = 1;
196 fLTYP = 1;
197 fBASL = 1;
198 fLWID = 1;
199 fMTYP = 1;
200 fMSCF = 1;
201 fPLCI = 1;
202 fPMCI = 1;
203 fFACI = 1;
204 fTXCI = 1;
205 fTXAL = 12;
206 fCHHE = 0.03;
207 fTANG = 0;
208 fTXFP = 62;
209 fBORD = 0;
210 fNCOL = 8;
211 fDRMD = 1;
212 fSYNC = 1;
213 fCLIP = 0;
214 f2BUF = 0;
215 fPID = 0;
216 fPname= "";
217}
218//___________________________________________
219void THIGZ::Gsatt(const char *name, const char *att, Int_t val)
220{
221// NAME Volume name
222// IOPT Name of the attribute to be set
223// IVAL Value to which the attribute is to be set
224//
225// name= "*" stands for all the volumes.
226// iopt can be chosen among the following :
227// see TGeant3::Gsatt for more details
228//
229
230 AliMC* pMC = AliMC::GetMC();
231 pMC->Gsatt(name,att,val);
232}
233
234//___________________________________________
235void THIGZ::Gdopt(const char *name,const char *value)
236{
237// NAME Option name
238// VALUE Option value
239//
240// To set/modify the drawing options.
241// see TGeant3::Gdopt for more details
242//
243 AliMC* pMC = AliMC::GetMC();
244 pMC->Gdopt(name,value);
245}
246
247
248//___________________________________________
249void THIGZ::Gdraw(const char *name,Float_t theta, Float_t phi, Float_t psi,Float_t u0,Float_t v0,Float_t ul,Float_t vl)
250{
251// NAME Volume name
252// +
253// THETA Viewing angle theta (for 3D projection)
254// PHI Viewing angle phi (for 3D projection)
255// PSI Viewing angle psi (for 2D rotation)
256// U0 U-coord. (horizontal) of volume origin
257// V0 V-coord. (vertical) of volume origin
258// SU Scale factor for U-coord.
259// SV Scale factor for V-coord.
260// see TGeant3::Gdraw for more details
261//
262
263 AliMC* pMC = AliMC::GetMC();
264 pMC->Gdraw(name,theta,phi,psi,u0,v0,ul,vl);
265}
266
267
268//___________________________________________
269void THIGZ::Gdrawc(const char *name,Int_t axis, Float_t cut,Float_t u0,Float_t v0,Float_t ul,Float_t vl)
270{
271// NAME Volume name
272// CAXIS Axis value
273// CUTVAL Cut plane distance from the origin along the axis
274// +
275// U0 U-coord. (horizontal) of volume origin
276// V0 V-coord. (vertical) of volume origin
277// SU Scale factor for U-coord.
278// SV Scale factor for V-coord.
279// see TGeant3::Gdrawc for more details
280//
281
282 TGeant3 *geant3=(TGeant3*)AliMC::GetMC();
283 geant3->Gdrawc(name,axis,cut,u0,v0,ul,vl);
284}
285
286
287//___________________________________________
288void THIGZ::Gdspec(const char *name)
289{
290// NAME Volume name
291//
292// Shows 3 views of the volume (two cut-views and a 3D view), together with
293// its geometrical specifications. The 3D drawing will
294// be performed according the current values of the options HIDE and
295// SHAD and according the current CVOL clipping parameters for that
296// volume.
297// see TGeant3::Gdspec for more details
298//
299
300 TGeant3 *geant3=(TGeant3*)AliMC::GetMC();
301 geant3->Gdspec(name);
302}
303
304
305//___________________________________________
306void THIGZ::Gdtree(const char *name,Int_t levmax, Int_t isel)
307{
308// NAME Volume name
309// LEVMAX Depth level
310// ISELT Options
311//
312// This function draws the logical tree,
313// Each volume in the tree is represented by a TPaveTree object.
314// Double-clicking on a TPaveTree draws the specs of the corresponding volume.
315// Use TPaveTree pop-up menu to select:
316// - drawing specs
317// - drawing tree
318// - drawing tree of parent
319//
320
321 TGeant3 *geant3=(TGeant3*)AliMC::GetMC();
322 geant3->Gdtree(name,levmax,isel);
323}
324
325
326//______________________________________________________________________________
327void THIGZ::SetBOMB(Float_t boom)
328{
329// BOOM : Exploding factor for volumes position
330//
331// To 'explode' the detector. If BOOM is positive (values smaller
332// than 1. are suggested, but any value is possible)
333// all the volumes are shifted by a distance
334// proportional to BOOM along the direction between their centre
335// and the origin of the MARS; the volumes which are symmetric
336// with respect to this origin are simply not shown.
337// BOOM equal to 0 resets the normal mode.
338// A negative (greater than -1.) value of
339// BOOM will cause an 'implosion'; for even lower values of BOOM
340// the volumes' positions will be reflected respect to the origin.
341// This command can be useful to improve the 3D effect for very
342// complex detectors. The following commands will make explode the
343// detector:
344
345 TGeant3 *geant3=(TGeant3*)AliMC::GetMC();
346 geant3->SetBOMB(boom);
347}
348
349//_______________________________________________________________
350extern "C" void type_of_call iacwk(Int_t &)
351{
352// printf("iacwk called,wid=%d\n",wid);
353}
354
355//_______________________________________________________________
356extern "C" void type_of_call iclrwk(Int_t &,Int_t &)
357{
358// printf("iclrwk called\n");
359 higz->Clear();
360}
361
362//_______________________________________________________________
363extern "C" void type_of_call iclwk(Int_t &,Int_t &)
364{
365// printf("iclwk called\n");
366
367}
368
369//_______________________________________________________________
370extern "C" void type_of_call idawk(Int_t &)
371{
372// printf("idawk called\n");
373}
374
375//_______________________________________________________________
376extern "C" void type_of_call ifa(Int_t &n,Float_t *x, Float_t *y)
377{
378// printf("ifa called, n=%d, pname=%s, pid=%d, x1=%f, y1=%f,x2=%f, y2=%f, x3=%f, y3=%f\n",n,higz->fPname.Data(),higz->fPID,x[0],y[0],x[1],y[1],x[2],y[2]);
379 TGraph *gr = new TGraph(n,x,y);
380 gr->SetFillColor(higz->fFACI);
381 gr->Draw("f");
382}
383
384//_______________________________________________________________
385extern "C" void type_of_call igbox(Float_t &x1,Float_t &x2,Float_t &y1,Float_t &y2)
386{
387 printf("igbox called, x1=%f, y1=%f, x2=%f, y2=%f\n",x1,y1,x2,y2);
388 TBox *box = new TBox(x1,y1,x2,y2);
389 box->SetLineColor(higz->fPLCI);
390 box->SetFillColor(higz->fFACI);
391 box->SetFillStyle(higz->fFASI);
392 box->Draw();
393}
394
395//_______________________________________________________________
396extern "C" void type_of_call ightor(Float_t &h,Float_t &l,Float_t &s,Float_t &r,Float_t &g,Float_t &b)
397{
398// printf("ightor called\n");
399 TColor *col1 = gROOT->GetColor(1);
400 if (col1) col1->HLStoRGB(h,l,s,r,g,b);
401}
402
403//_______________________________________________________________
404extern "C" void type_of_call igpave(Float_t &x1,Float_t &x2,Float_t &yy1,Float_t &yy2,Float_t &,Int_t &isbox,Int_t &isfram,const char *, const Int_t)
405{
406 char text[5];
407 strncpy(text,(char*)&higz->fPID,4);
408 text[4] = 0;
409 Float_t y1 = yy1;
410 Float_t y2 = yy2;
411 if (y1 > y2) { y1 = yy2; y2 = yy1;}
412 Float_t y = 0.5*(y1+y2);
413 Float_t dymax = 0.06*(higz->GetY2()-higz->GetY1());
414 Float_t dymin = -higz->PixeltoY(12);
415 if (y2-y1 > dymax) {
416 y1 = y - 0.5*dymax;
417 y2 = y + 0.5*dymax;
418 }
419 if (y2-y1 < dymin) {
420 y1 = y - 0.5*dymin;
421 y2 = y + 0.5*dymin;
422 }
423 TPaveTree *pt = new TPaveTree(x1,y1,x2,y2,text);
424 pt->SetTextColor(5);
425 pt->SetFillColor(isbox%1000);
426 pt->SetLineColor(isfram%1000);
427 pt->Draw();
428// printf("igpave called, text=%s, Pname=%s, x1=%f, y1=%f, x2=%f, y2=%f, isbox=%d, isfram=%d\n",text,higz->fPname.Data(),x1,y1,x2,y2,isbox,isfram);
429}
430
431//_______________________________________________________________
432#ifndef WIN32
433extern "C" void type_of_call igpid(Int_t &,const char *name,Int_t &pid,const char *, const Int_t l1, const Int_t)
434#else
435extern "C" void type_of_call igpid(Int_t &,const char *name,const Int_t l1, Int_t &pid,const char *, const Int_t)
436#endif
437{
438 npid++;
439// if(npid&100 == 0) printf("igpid called, npid=%d\n",npid);
440 strncpy(cpar,name,l1); cpar[l1] = 0;
441 higz->fPname = cpar;
442 higz->fPID = pid;
443
444// char text[5];
445// strncpy(text,(char*)&higz->fPID,4);
446// text[4] = 0;
447// printf("igpid called, level=%d, name=%s, pid=%d, cpid=%s\n",level,cpar,pid,text);
448}
449
450//_______________________________________________________________
451#ifndef WIN32
452extern "C" void type_of_call igq(const char *name,Float_t &rval, const Int_t l1)
453#else
454extern "C" void type_of_call igq(const char *name,const Int_t l1, Float_t &rval)
455#endif
456{
457 strncpy(cpar,name,l1); cpar[l1] = 0;
458// printf("igq called, name=%s\n",cpar);
459 rval = higz->Get(cpar);
460}
461
462//_______________________________________________________________
463extern "C" void type_of_call igrng(Float_t &xsize,Float_t &ysize)
464{
465// printf("igrng called, xsize=%f, ysize=%f\n",xsize,ysize);
466 higz->Range(0,0,xsize,ysize);
467}
468
469//_______________________________________________________________
470extern "C" void type_of_call igsa(Int_t &)
471{
472// printf("igsa called, iwk=%d\n",iwk);
473}
474
475//_______________________________________________________________
476#ifndef WIN32
477extern "C" void type_of_call igset(const char *name,Float_t &rval, const Int_t l1)
478#else
479extern "C" void type_of_call igset(const char *name, const Int_t l1,Float_t &rval)
480#endif
481{
482 strncpy(cpar,name,l1); cpar[l1] = 0;
483// printf("igset called, name=%s, rval=%f\n",cpar,rval);
484 higz->Set(cpar,rval);
485}
486
487//_______________________________________________________________
488extern "C" void type_of_call igterm()
489{
490 printf("igterm called\n");
491}
492
493//_______________________________________________________________
494extern "C" void type_of_call iopwk(Int_t &iwkid,Int_t &iconid,Int_t &iwtypi)
495{
496 printf("iopwk called, iwkid=%d, iconid=%d, iwtypi=%d\n",iwkid,iconid,iwtypi);
497}
498
499//_______________________________________________________________
500extern "C" void type_of_call ipl(Int_t &n,Float_t *x,Float_t *y)
501{
502// printf("ipl called, n=%d, x[0]=%f,y[0]=%f, x[1]=%f, y[1]=%f\n",n,x[0],y[0],x[1],y[1]);
503 if (n <= 2) {
504 TLine *l = new TLine(x[0],y[0],x[1],y[1]);
505 l->SetLineColor(higz->fPLCI);
506 l->SetLineStyle(higz->fLTYP);
507 l->SetLineWidth(Short_t(higz->fLWID));
508 l->Draw();
509 } else {
510 TPolyLine *pl = new TPolyLine(n,x,y);
511 pl->SetLineColor(higz->fPLCI);
512 pl->SetLineStyle(higz->fLTYP);
513 pl->SetLineWidth(Short_t(higz->fLWID));
514 pl->Draw();
515 }
516}
517
518//_______________________________________________________________
519extern "C" void type_of_call ipm(Int_t &n,Float_t *x,Float_t *y)
520{
521 printf("ipm called, n=%d\n",n);
522 TPolyMarker *pm = new TPolyMarker(n,x,y);
523 pm->SetMarkerColor(higz->fPMCI);
524 pm->SetMarkerStyle(higz->fMTYP);
525 pm->SetMarkerSize(higz->fMSCF);
526 pm->Draw();
527}
528
529//_______________________________________________________________
530extern "C" void type_of_call irqlc(Int_t&, Int_t&, Int_t&, Int_t&, Float_t&, Float_t&)
531
532{
533 printf("irqlc called\n");
534}
535
536//_______________________________________________________________
537extern "C" void type_of_call iscr(Int_t &,Int_t &ici,Float_t &r,Float_t &g,Float_t &b)
538{
539// printf("iscr called, ici=%d, r=%f, g=%f, b=%f\n",ici,r,g,b);
540 Int_t color = ici;
541// if (color > 10) color += 35;
542 TColor *col = gROOT->GetColor(color);
543 if (!col) {
544 col = new TColor(color,r,g,b);
545 return;
546 } else {
547 col->SetRGB(r,g,b);
548 }
549}
550
551//_______________________________________________________________
552extern "C" void type_of_call isfaci(Int_t &col)
553{
554// printf("isfaci called, col=%d\n",col);
555 Int_t color = col%1000;
556// if (color > 10) color += 35;
557 higz->fFACI = color;
558}
559
560//_______________________________________________________________
561extern "C" void type_of_call isfais(Int_t &is)
562{
563// printf("isfais called, is=%d\n",is);
564 higz->fFAIS = is;
565}
566
567//_______________________________________________________________
568extern "C" void type_of_call isln(Int_t &ln)
569{
570// printf("isln called, ln=%d\n",ln);
571 higz->fLTYP = ln;
572}
573
574//_______________________________________________________________
575extern "C" void type_of_call ismk(Int_t &mk)
576{
577// printf("ismk called, mk=%d\n",mk);
578 higz->fMTYP = mk;
579}
580
581//_______________________________________________________________
582extern "C" void type_of_call islwsc(Float_t &wl)
583{
584// printf("islwsc called, wl=%f\n",wl);
585 higz->fLWID = wl;
586}
587
588//_______________________________________________________________
589extern "C" void type_of_call isplci(Int_t &col)
590{
591// printf("isplci called, col=%d\n",col);
592 Int_t color = col%1000;
593// if (color > 10) color += 35;
594 higz->fPLCI = color;
595}
596
597//_______________________________________________________________
598extern "C" void type_of_call ispmci(Int_t &col)
599{
600// printf("ispmci called, col=%d\n",col);
601 Int_t color = col%1000;
602// if (color > 10) color += 35;
603 higz->fPMCI = color;
604}
605
606//_______________________________________________________________
607extern "C" void type_of_call istxci(Int_t &col)
608{
609// printf("istxci called, col=%d\n",col);
610 Int_t color = col%1000;
611// if (color > 10) color += 35;
612 higz->fTXCI = color;
613}
614
615//_______________________________________________________________
616extern "C" void type_of_call isvp(Int_t &,Float_t &,Float_t &,Float_t &,Float_t &)
617{
618// printf("isvp called, nt=%d, x1=%f, y1=%f, x2=%f, y2=%f\n",nt,x1,y1,x2,y2);
619}
620
621//_______________________________________________________________
622extern "C" void type_of_call iswn(Int_t &,Float_t &x1,Float_t &x2,Float_t &y1,Float_t &y2)
623
624{
625// printf("iswn called, nt=%d, x1=%f, y1=%f, x2=%f, y2=%f\n",nt,x1,y1,x2,y2);
626 higz->Range(x1,y1,x2,y2);
627}
628
629//_______________________________________________________________
630extern "C" void type_of_call itx(Float_t &x,Float_t &y,const char *ptext, const Int_t l1p)
631{
632 if (higz->fPname == "Tree") return;
633 Int_t l1=l1p;
634 strncpy(cpar,ptext,l1); cpar[l1] = 0;
635//printf("itx called, x=%f, y=%f, text=%s, l1=%d\n",x,y,cpar,l1);
636 while(l1) {
637 if (cpar[l1-1] != ' ' && cpar[l1-1] != '$') break;
638 l1--;
639 cpar[l1] = 0;
640 }
641 char *small = strstr(cpar,"<");
642 while(small && *small) {
643 small[0] = tolower(small[1]);
644 small++;
645 }
646 TText *text = new TText(x,y,cpar);
647 text->SetTextColor(higz->fTXCI);
648 text->SetTextSize(higz->fCHHE);
649 text->SetTextFont(higz->fTXFP);
650 text->SetTextAlign(higz->fTXAL);
651 text->SetTextAngle(higz->fTANG);
652 text->Draw();
653}
654
655//_______________________________________________________________
656extern "C" void type_of_call hplint(Int_t &)
657{
658 printf("hplint called\n");
659 new THIGZ(600);
660}
661
662//_______________________________________________________________
663extern "C" void type_of_call hplend()
664{
665 printf("hplend called\n");
666}
667
668//_______________________________________________________________
669extern "C" void type_of_call hplfra(Float_t &x1,Float_t &x2,Float_t &y1, Float_t &y2,const char *, const Int_t)
670{
671// printf("hplfra called, x1=%f, y1=%f, x2=%f, y2=%f\n",x1,y1,x2,y2);
672 higz->Clear();
673 higz->Range(x1,y1,x2,y2);
674}
675
676//_______________________________________________________________
677extern "C" void type_of_call igmeta(Int_t &, Int_t &)
678{
679 printf("igmeta called\n");
680}
681
682//_______________________________________________________________
683extern "C" void type_of_call iselnt(Int_t &)
684{
685// printf("iselnt called, nt=%d\n",nt);
686}
687
688//_______________________________________________________________
689extern "C" Int_t type_of_call igiwty(Int_t &)
690{
691// printf("igiwty called, wid=%d\n",wid);
692 return 1;
693}
694
695//_______________________________________________________________
696extern "C" void type_of_call igqwk(Int_t &, const char *name, Float_t &rval, const Int_t l1)
697{
698 strncpy(cpar,name,l1); cpar[l1] = 0;
699// printf("igqwk called, wid=%d, pname=%s\n",wid,cpar);
700 rval = higz->Get(cpar);
701}
702