coding conventions corrections
[u/mrichter/AliRoot.git] / STRUCT / AliALIFE.cxx
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660eb9a2 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16/*
17$Log$
b9d0a01d 18Revision 1.3.6.1 2002/08/29 18:08:17 hristov
19Replace strcpy by assignment operator
b7fab4b5 20
21Revision 1.3 2001/10/31 15:56:54 morsch
22Correction in OnionCone.
23
38e826ad 24Revision 1.2 2000/10/10 06:40:25 hristov
25Bug fixes
26
886e839a 27Revision 1.1 2000/07/26 15:10:57 morsch
28Helper class to write geometry in ALIFE format in parallel with Geant geometry definition.
29
660eb9a2 30*/
31
32#include <AliALIFE.h>
33
34ClassImp(AliALIFE)
35
36 AliALIFE::AliALIFE(const char* file1, const char* file2)
37{
38// Constructor
39 fNBodies = 0;
40 fNVolumes= 0;
41 fBodyFile = file1; // File for Fluka bodies
42 fVolumeFile = file2;
43 fFile1=fopen(fBodyFile,"w");
44 fFile2=fopen(fVolumeFile,"w");
45 BodyHeader();
46 VolumeHeader();
47 fDefaultVolume1 = "DEFAU1";
48 fDefaultVolume2 = "DEFAU2";
49}
50
51 AliALIFE::AliALIFE()
52{
53// Default constructor
54 fBodyFile = "FlukaBody.inp";
55 fVolumeFile = "FlukaVolume.inp";
56 fFile1=fopen(fBodyFile,"w");
57 fFile2=fopen(fVolumeFile,"w");
58 BodyHeader();
59 VolumeHeader();
60}
61
62void AliALIFE::BodyHeader()
63{
64// Write header for body definitions
65 fprintf(fFile1,"*\n");
66 fprintf(fFile1,"GEOBEGIN COMBINAT\n");
67 fprintf(fFile1," 0 0 AliRoot Generated\n");
68 fprintf(fFile1,"*\n");
69 fprintf(fFile1,"*== Body Definitions ================================================\n");
70 fprintf(fFile1,"*\n");
71
72}
73
74
75void AliALIFE::VolumeHeader()
76{
77// Write header for region (volume) definitions
78 fprintf(fFile2,"REGIONS\n");
79 fprintf(fFile2,"*\n");
80 fprintf(fFile2,"*== Region Definitions =================================================\n");
81 fprintf(fFile2,"*\n");
82}
83
84
85void AliALIFE:: Cylinder(Float_t rmin, Float_t rmax,
86 Float_t zmin, Float_t zmax,
87 Float_t pos[3],
88 char* Material, char* Field, char* Cuts)
89{
90// Simple cylinder
91//
92// Bodies
93// ^^^^^^
94 char name1[5], name2[5], name3[5], name4[5];
95
96// outer radius
97 sprintf(name1, "R%4.4d", fNBodies++);
98 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",name1, pos[0], pos[1], rmax); // inner radius
99 sprintf(name2, "R%4.4d", fNBodies++);
100 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",name2, pos[0], pos[1], rmin);
101// z-max
102 sprintf(name3, "Z%4.4d", fNBodies++);
103 fprintf(fFile1,"%5s XYP%10.3f\n",name3, zmax);
104// z-min
105 sprintf(name4, "Z%4.4d", fNBodies++);
106 fprintf(fFile1,"%5s XYP%10.3f\n",name4, zmin);
107//
108// Volumes
109// ^^^^^^^
110
111 fprintf(fFile2,">%s:%s\n", Material, Field);
112 fprintf(fFile2,"EMFCUT=%s\n", Cuts);
113 fprintf(fFile2,"WW-FACTOR=%s\n", Cuts);
114 if (rmin >0) {
115 fprintf(fFile2,"+%s-%s+%s-%s\n", name1, name2, name3, name4);
116 } else {
117 fprintf(fFile2,"+%s+%s-%s\n", name1, name3, name4);
118 }
119
120 fprintf(fFile2,"\n");
121}
122
123void AliALIFE::OnionCylinder(Float_t* r, Int_t nr, Float_t zmin, Float_t zmax,
124 Float_t pos[3], char** Materials,
125 char** Fields, char** Cuts)
126{
127//
128// Concentric cylinders
129//
130
131// Bodies
132// ^^^^^^
133 char nameRin[6], nameRou[6], nameZin[6], nameZou[6];
134// z-limits
135// z-max
136 sprintf(nameZou, "Z%4.4d", fNBodies++);
137 nameZou[5]='\0';
138
139 fprintf(fFile1,"%5s XYP%10.3f\n",nameZou, zmax);
140// z-min
141 sprintf(nameZin, "Z%4.4d", fNBodies++);
142 nameZin[5]='\0';
143 fprintf(fFile1,"%5s XYP%10.3f\n",nameZin, zmin);
144
145// inner radius
146 sprintf(nameRin, "R%4.4d", fNBodies++);
147 nameRin[5]='\0';
148 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",nameRin, pos[0], pos[1], r[0]);
149
150 Int_t i;
151 for (i=1; i<nr; i++) {
152// outer radius
153 sprintf(nameRou, "R%4.4d", fNBodies++);
154 nameRou[5]='\0';
155 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",
156 nameRou, pos[0], pos[1], r[i]);
157//
158// Volumes
159// ^^^^^^^
160 if (Fields && Cuts) {
161 fprintf(fFile2,">%s:%s\n", Materials[i-1], Fields[i-1]);
162 fprintf(fFile2,"EMFCUT=%s\n", Cuts[i-1]);
163 fprintf(fFile2,"WW-FACTOR=%s\n", Cuts[i-1]);
164 } else {
165 fprintf(fFile2,">%s:%s\n", Materials[i-1], "MF");
166 fprintf(fFile2,"EMFCUT=%s\n", "$UNSHIELDED");
167 fprintf(fFile2,"WW-FACTOR=%s\n", "$UNSHIELDED");
168 }
169 if (r[i-1] != 0.) {
170 fprintf(fFile2,"+%5s-%5s+%5s-%5s\n", nameZou, nameZin, nameRou, nameRin);
171 } else {
172 fprintf(fFile2,"+%5s-%5s+%5s\n", nameZou, nameZin, nameRou);
173 }
174 fprintf(fFile2,"\n");
886e839a 175 strcpy(nameRin,nameRou);
660eb9a2 176 }
177}
178
179
180void AliALIFE::Cone(Float_t rmin1, Float_t rmin2,
181 Float_t rmax1, Float_t rmax2,
182 Float_t zmin, Float_t zmax,
183 Float_t pos[3],
184 char* Material, char* Field, char* Cuts)
185{
186// Simple cone
187
188//
189// Bodies
190// ^^^^^^
191 char nameCou[6], nameCin[6];
192 Float_t d, r1, r2;
193 char nameZin[6], nameZou[6];
194// z-max
195 sprintf(nameZou, "Z%4.4d", fNBodies++);
196 fprintf(fFile1,"%5s XYP%10.3f\n",nameZou, zmax);
197// z-min
198 sprintf(nameZin, "Z%4.4d", fNBodies++);
199 fprintf(fFile1,"%5s XYP%10.3f\n",nameZin, zmin);
200
201// outer radius
202 d=zmax-zmin;
203 if (rmax1 >= 0. && rmax2 >= 0.) {
204 if (rmax1!=rmax2) {
205 if (rmax1 > rmax2) {
206 pos[2]=zmin;
207 r1=rmax1;
208 r2=rmax2;
209 } else {
210 d=-d;
211 pos[2]=zmax;
212 r1=rmax2;
213 r2=rmax1;
214 }
215 sprintf(nameCou, "C%4.4d", fNBodies++);
216 fprintf(fFile1,"%5s TRC%10.3f%10.3f%10.3f%10.3f%10.3f%10.3f\n",
217 nameCou, pos[0], pos[1], pos[2], 0., 0., d);
218 fprintf(fFile1," %10.3f%10.3f\n",r1,r2);
219 } else {
220 sprintf(nameCou, "C%4.4d", fNBodies++);
221 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",
222 nameCou, pos[0], pos[1], rmax1);
223 }
224 }else {
b7fab4b5 225 fDefaultVolume1 = nameCou;
660eb9a2 226 }
227
228
229
230// inner radius
231 if (rmin1 >= 0. && rmin2 >= 0.) {
232 if (rmin1!=rmin2) {
233 if (rmin1 != 0 && rmin2 !=0) {
234 d=zmax-zmin;
235 if (rmin1 > rmin2) {
236 pos[2]=zmin;
237 r1=rmin1;
238 r2=rmin2;
239 } else {
240 pos[2]=zmax;
241 r1=rmin2;
242 r2=rmin1;
243 d=-d;
244 }
245 sprintf(nameCin, "C%4.4d", fNBodies++);
246 fprintf(fFile1,"%5s TRC%10.3f%10.3f%10.3f%10.3f%10.3f%10.3f\n",
247 nameCin, pos[0], pos[1], pos[2], 0., 0., d);
248 fprintf(fFile1," %10.3f%10.3f\n",r1,r2);
249 }
250 } else {
251 sprintf(nameCin, "C%4.4d", fNBodies++);
252 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",
253 nameCin, pos[0], pos[1], rmin1);
254 }
255 }else {
b7fab4b5 256 fDefaultVolume2 = nameCin;
660eb9a2 257 }
258
259
260
261//
262// Volumes
263// ^^^^^^^
264 fprintf(fFile2,">%s:%s\n", Material, Field);
265 fprintf(fFile2,"EMFCUT=%s\n", Cuts);
266 fprintf(fFile2,"WW-FACTOR=%s\n", Cuts);
267 if (rmin1 != 0 && rmin2 !=0) {
268 fprintf(fFile2,"+%s-%s+%s-%s\n", nameCou, nameCin, nameZou, nameZin);
269 } else {
270 fprintf(fFile2,"+%s+%s-%s\n", nameCou, nameZou, nameZin);
271 }
272 fprintf(fFile2,"\n");
273}
274
275void AliALIFE::OnionCone (Float_t* r1, Float_t* r2, Int_t nr,
276 Float_t zmin, Float_t zmax,
277 Float_t pos[3], char** Materials, char** Fields,
278 char** Cuts)
279{
280// Concentric cones
281//
282 char nameCin[6], nameCou[6], nameZin[6], nameZou[6];
283//
284// Bodies
285// ^^^^^^
286 Float_t ri1, ri2, ro1, ro2, d;
287
288// z-max
289 sprintf(nameZou, "Z%4.4d", fNBodies++);
290 fprintf(fFile1,"%5s XYP%10.3f\n",nameZou, zmax);
291// z-min
292 sprintf(nameZin, "Z%4.4d", fNBodies++);
293 fprintf(fFile1,"%5s XYP%10.3f\n",nameZin, zmin);
294
295// inner radius
296 d=zmax-zmin;
297 Bool_t hasInner=kFALSE;
298 Bool_t isCylinder=kFALSE;
299 if (r1[0]>=0 && r2[0]>=0) {
300 if (r1[0] != 0. && r2[0] !=0.) {
301 if (r1[0]!=r2[0]) {
302 hasInner=kTRUE;
303 if (r1[0] > r2[0]) {
304 pos[2]=zmin;
305 ri1=r1[0];
306 ri2=r2[0];
307 } else {
308 d=-d;
309 pos[2]=zmax;
310 ri1=r2[0];
311 ri2=r1[0];
312 }
313 sprintf(nameCin, "C%4.4d", fNBodies++);
314 nameCin[5]='\0';
315 fprintf(fFile1,"%5s TRC%10.3f%10.3f%10.3f%10.3f%10.3f%10.3f\n",
316 nameCin, pos[0], pos[1], pos[2], 0., 0., d);
317 fprintf(fFile1," %10.3f%10.3f\n",ri1,ri2);
318 } else {
319 isCylinder=kTRUE;
320 sprintf(nameCin, "C%4.4d", fNBodies++);
321 nameCin[5]='\0';
322 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",
323 nameCin, pos[0], pos[1], r1[0]);
324 }
325 }
326 } else {
b7fab4b5 327 fDefaultVolume1 = nameCin;
660eb9a2 328 }
329
330
331
332// outer radius
333 Int_t i;
334 for (i=1; i<nr; i++) {
335 if (r1[i] >= 0. && r2[i] >=0) {
336 if (r1[i]!=r2[i]) {
337 d=zmax-zmin;
338 if (r1[i] > r2[i]) {
339 pos[2]=zmin;
340 ro1=r1[i];
341 ro2=r2[i];
342 } else {
343 pos[2]=zmax;
344 ro1=r2[i];
345 ro2=r1[i];
346 d=-d;
347 }
348 sprintf(nameCou, "C%4.4d", fNBodies++);
349 nameCou[5]='\0';
350 fprintf(fFile1,"%5s TRC%10.3f%10.3f%10.3f%10.3f%10.3f%10.3f\n",
351 nameCou, pos[0], pos[1], pos[2], 0., 0., d);
352 fprintf(fFile1," %10.3f%10.3f\n",ro1,ro2);
353 } else {
354 isCylinder=kTRUE;
355 sprintf(nameCou, "C%4.4d", fNBodies++);
356 nameCou[5]='\0';
357 fprintf(fFile1,"%5s ZCC%10.3f%10.3f%10.3f\n",
358 nameCou, pos[0], pos[1], r1[i]);
359 }
360 } else {
b7fab4b5 361 fDefaultVolume1 = nameCou;
660eb9a2 362 }
363
364// Volumes
365// ^^^^^^^
366 if (Fields && Cuts) {
367 fprintf(fFile2,">%s:%s\n", Materials[i-1], Fields[i-1]);
368 fprintf(fFile2,"EMFCUT=%s\n", Cuts[i-1]);
369 fprintf(fFile2,"WW-FACTOR=%s\n", Cuts[i-1]);
370 } else {
371 fprintf(fFile2,">%s:%s\n", Materials[i-1], "MF");
372 fprintf(fFile2,"EMFCUT=%s\n", "$UNSHIELDED");
373 fprintf(fFile2,"WW-FACTOR=%s\n", "$UNSHIELDED");
374 }
38e826ad 375 if (hasInner || isCylinder) {
376 if (!isCylinder) fprintf(fFile2,"+%5s-%5s+%5s-%5s\n",
660eb9a2 377 nameCou, nameCin, nameZou, nameZin);
38e826ad 378 if (isCylinder) fprintf(fFile2,"+%5s+%5s-%5s\n",
379 nameCou, nameZou, nameZin);
660eb9a2 380 } else {
381 fprintf(fFile2,"+%5s\n", nameCou);
382 hasInner=kTRUE;
383 }
384 fprintf(fFile2,"\n");
886e839a 385 strcpy(nameCin,nameCou);
660eb9a2 386 }
387}
388
389
390void AliALIFE::PolyCone(Float_t* rmin, Float_t* rmax, Float_t* z,
391 Int_t nz,
392 Float_t pos[3],
393 char* Material, char* Field, char* Cuts)
394{
395//
396// Equivalent to the Geant3 PCON
397 Int_t i;
398 for (i=0; i<nz-1; i++) {
399// skip (z_i = z_i+1)
400 if (z[i] == z[i+1]) continue;
401 Cone(rmin[i], rmin[i+1], rmax[i], rmax[i+1], z[i], z[i+1], pos,
402 Material, Field, Cuts);
403 }
404}
405
406void AliALIFE::OnionPolyCone(Float_t** r, Float_t* z,
407 Int_t nr, Int_t nz,
408 Float_t pos[3],
886e839a 409 char** Materials, char** Fields, char** Cuts)
660eb9a2 410{
411//
412// Concentric PCONS
413 Int_t i, j;
414 for (i=0; i<nz-1; i++) {
415// skip (z_i = z_i+1)
416 if (z[i] == z[i+1]) continue;
417 for (j=0; j<nr-1; j++) {
418 if (Fields && Cuts) {
419 Cone(r[i][j], r[i+1][j], r[i][j+1], r[i+1][j+1],
420 z[i], z[i+1], pos,
421 Materials[i], Fields[i], Cuts[i]);
422 } else {
423 Cone(r[i][j], r[i+1][j], r[i][j+1], r[i+1][j+1],
424 z[i], z[i+1], pos,
425 Materials[i]);
426 }
427 }
428 }
429}
430
431void AliALIFE::Comment(char* Comment)
432{
433// Insert comment line
434 fprintf(fFile1,"*%s\n", Comment);
435 fprintf(fFile2,"*%s\n", Comment);
436}
437
438
439void AliALIFE::Finish()
440{
441// Finish geometry definition
442 char s[BUFSIZ];
443 fprintf(fFile1," END\n");
444 fclose(fFile2);
445 fFile2=fopen(fVolumeFile,"r");
446 while (fgets(s, BUFSIZ, fFile2)) {
447 fputs(s,fFile1);
448 }
449
450 fclose(fFile1);
451 fclose(fFile2);
452}
453
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