| 5 |
C |
C |
| 6 |
INCLUDE 'INTEST.TXT' |
INCLUDE 'INTEST.TXT' |
| 7 |
C |
C |
| 8 |
REAL PIANO(22), VARFIT(2) |
REAL PIANO(NPLAV), VARFIT(2) |
| 9 |
REAL SHIFT |
REAL SHIFT |
| 10 |
REAL TG(2), BAR(2,NPLA) |
REAL TG(2), BAR(2,NPLAV) |
| 11 |
REAL DISTX, DISTY, Y(NPLA), YY(NPLA) |
REAL DISTX, DISTY, Y(NPLAV), YY(NPLAV) |
| 12 |
REAL RIG, RMASS |
REAL RIG, RMASS |
| 13 |
REAL CHECK, ENER, CX, CY |
REAL CHECK, ENER, CX, CY |
| 14 |
REAL EINF, ESUP,ENPLANEX,ENPLANEY,TENPLAX,TENPLAY |
REAL EINF, ESUP,ENPLANEX,ENPLANEY,TENPLAX,TENPLAY |
| 16 |
c |
c |
| 17 |
INTEGER gtr |
INTEGER gtr |
| 18 |
INTEGER j, m, nn, i |
INTEGER j, m, nn, i |
| 19 |
INTEGER IBAR(2,NPLA), NPFIT(2) |
INTEGER IBAR(2,NPLAV), NPFIT(2) |
| 20 |
INTEGER Iquest(100), IWPL(2),CHTRACK |
INTEGER Iquest(100), IWPL(2),CHTRACK |
| 21 |
c |
c |
| 22 |
COMMON / TAGLIOEN / EINF, ESUP, ENER(2) |
COMMON / TAGLIOEN / EINF, ESUP, ENER(2) |
| 53 |
C |
C |
| 54 |
C Z position of Y planes, Y1 = 0., Y2 = -8.09, Y3 = -18.18, ... |
C Z position of Y planes, Y1 = 0., Y2 = -8.09, Y3 = -18.18, ... |
| 55 |
C |
C |
| 56 |
|
c print *,'NPLA IS ',NPLA |
| 57 |
PIANO(1) = 0. |
PIANO(1) = 0. |
| 58 |
DO I = 2, 22 |
DO I = 2, NPLA |
| 59 |
IF ( MOD(I,2).EQ.0 ) THEN |
IF ( MOD(I,2).EQ.0 ) THEN |
| 60 |
PIANO(I) = PIANO(I-1) - 8.09 |
PIANO(I) = PIANO(I-1) - 8.09 |
| 61 |
ELSE |
ELSE |
| 64 |
ENDDO |
ENDDO |
| 65 |
C |
C |
| 66 |
CALL VZERO(DEXY,2*LENSEV) |
CALL VZERO(DEXY,2*LENSEV) |
| 67 |
CALL VZERO(BAR,2*NPLA) |
CALL VZERO(BAR,2*NPLAV) |
| 68 |
CALL VZERO(IBAR,2*NPLA) |
CALL VZERO(IBAR,2*NPLAV) |
| 69 |
CALL VZERO(CBAR,2*NPLA) |
CALL VZERO(CBAR,2*NPLAV) |
| 70 |
CALL VZERO(CIBAR,2*NPLA) |
CALL VZERO(CIBAR,2*NPLAV) |
| 71 |
CALL VZERO(QQ,4) |
CALL VZERO(QQ,4) |
| 72 |
CALL VZERO(Y,NPLA) |
CALL VZERO(Y,NPLAV) |
| 73 |
CALL VZERO(YY,NPLA) |
CALL VZERO(YY,NPLAV) |
| 74 |
VARFIT(1) = 0. |
VARFIT(1) = 0. |
| 75 |
VARFIT(2) = 0. |
VARFIT(2) = 0. |
| 76 |
NPFIT(1) = 0. |
NPFIT(1) = 0. |
| 101 |
C |
C |
| 102 |
C CALCULATE QTOT, NSTRIP, QQ, NX22, QX22, QMAX AND PLANEMAX |
C CALCULATE QTOT, NSTRIP, QQ, NX22, QX22, QMAX AND PLANEMAX |
| 103 |
C |
C |
| 104 |
DO I = 1,22 |
DO I = 1,NPLA |
| 105 |
ENPLANEY = 0. |
ENPLANEY = 0. |
| 106 |
ENPLANEX = 0. |
ENPLANEX = 0. |
| 107 |
DO J = 1,96 |
DO J = 1,96 |
| 108 |
|
c if ( ESTRIP(1,I,J).gt.0) |
| 109 |
|
c & print *,' I ',I,' J ',J,' ES1 ',ESTRIP(1,I,J) |
| 110 |
|
c if ( ESTRIP(2,I,J).gt.0) |
| 111 |
|
c & print *,' I ',I,' J ',J,' ES2 ',ESTRIP(2,I,J) |
| 112 |
IF ( MOD(I,2).NE.0 ) THEN |
IF ( MOD(I,2).NE.0 ) THEN |
| 113 |
IF ( ESTRIP(2,I,J).GT.EMIN ) THEN |
IF ( ESTRIP(2,I,J).GT.EMIN ) THEN |
| 114 |
DEXY(2,I,J) = ESTRIP(2,I,J) |
DEXY(2,I,J) = ESTRIP(2,I,J) |
| 152 |
ENPLANEX = ENPLANEX + DEXY(1,I,J) |
ENPLANEX = ENPLANEX + DEXY(1,I,J) |
| 153 |
NSTRIP = NSTRIP + 1. |
NSTRIP = NSTRIP + 1. |
| 154 |
QTOT = QTOT + DEXY(1,I,J) |
QTOT = QTOT + DEXY(1,I,J) |
| 155 |
IF (I.EQ.22) THEN |
IF (I.EQ.NPLA) THEN |
| 156 |
NX22 = NX22 + 1. |
NX22 = NX22 + 1. |
| 157 |
QX22 = QX22 + DEXY(1,I,J) |
QX22 = QX22 + DEXY(1,I,J) |
| 158 |
ENDIF |
ENDIF |
| 177 |
C FIT THE TRACK INSIDE THE CALORIMETER |
C FIT THE TRACK INSIDE THE CALORIMETER |
| 178 |
C |
C |
| 179 |
if (GOOD2.EQ.1.OR.TRIGTY.GE.2) then |
if (GOOD2.EQ.1.OR.TRIGTY.GE.2) then |
| 180 |
|
c print *,' CALL CLUSTER ' |
| 181 |
CALL CLUSTER |
CALL CLUSTER |
| 182 |
|
c print *,' CALL DIRECTION ' |
| 183 |
CALL DIRECTION(TG) |
CALL DIRECTION(TG) |
| 184 |
NPCFIT(1) = NPFIT(1) |
NPCFIT(1) = NPFIT(1) |
| 185 |
NPCFIT(2) = NPFIT(2) |
NPCFIT(2) = NPFIT(2) |
| 197 |
ENDIF |
ENDIF |
| 198 |
C |
C |
| 199 |
DO I = 1,NPLA |
DO I = 1,NPLA |
| 200 |
NN = 1 |
C NN = 1 |
| 201 |
C NN = 0 |
NN = 0 |
| 202 |
C IF (M.EQ.2) NN = 1 |
C IF (M.EQ.2) NN = 1 |
| 203 |
IF (MOD(I,2).EQ.NN) THEN |
IF (MOD(I,2).EQ.NN) THEN |
| 204 |
SHIFT = +0.5 |
IF (REVERSE.EQ.0) THEN |
| 205 |
|
SHIFT = -0.5 |
| 206 |
|
ELSE |
| 207 |
|
SHIFT = +0.5 |
| 208 |
|
ENDIF |
| 209 |
ELSE |
ELSE |
| 210 |
SHIFT = -0.5 |
IF (REVERSE.EQ.0) THEN |
| 211 |
|
SHIFT = +0.5 |
| 212 |
|
ELSE |
| 213 |
|
SHIFT = -0.5 |
| 214 |
|
ENDIF |
| 215 |
ENDIF |
ENDIF |
| 216 |
C |
C |
| 217 |
IF (M.EQ.1) THEN |
IF (M.EQ.1) THEN |
| 218 |
DISTX = PIANO(I) - 5.81 |
DISTX = PIANO(I) - 5.81 |
| 219 |
|
c print *,'C X PLANE I= ',I,' Z = ',DISTX+ZALIG |
| 220 |
Y(I) = DISTX * TG(1) + CX |
Y(I) = DISTX * TG(1) + CX |
| 221 |
BAR(M,I) = Y(I) |
BAR(M,I) = Y(I) |
| 222 |
CBAR(M,I) = (Y(I) - XALIG)/10. |
CBAR(M,I) = (Y(I) - XALIG)/10. |
| 223 |
C |
C |
| 224 |
ELSE |
ELSE |
| 225 |
DISTY = PIANO(I) |
DISTY = PIANO(I) |
| 226 |
|
c print *,'C Y PLANE I= ',I,' Z = ',DISTY+ZALIG |
| 227 |
YY(I) = DISTY * TG(2) + CY |
YY(I) = DISTY * TG(2) + CY |
| 228 |
BAR(M,I) = YY(I) |
BAR(M,I) = YY(I) |
| 229 |
CBAR(M,I) = (-YALIG + YY(I))/10. |
CBAR(M,I) = (-YALIG + YY(I))/10. |
| 246 |
C |
C |
| 247 |
C CALCULATE ELEN AND SELEN |
C CALCULATE ELEN AND SELEN |
| 248 |
C |
C |
| 249 |
ELEN = 40.82 * QTOT * 1.06 * 1E-4 |
c ELEN = 40.82 * QTOT * 1.06 * 1E-4 |
| 250 |
|
C ELEN = 260. * QTOT |
| 251 |
|
ELEN = QTOT / 260. |
| 252 |
IF (ELEN.GT.0.) THEN |
IF (ELEN.GT.0.) THEN |
| 253 |
SELEN = ELEN * (0.01183 + 0.121 / SQRT(ELEN)) |
SELEN = ELEN * (0.01183 + 0.121 / SQRT(ELEN)) |
| 254 |
ELSE |
ELSE |
| 257 |
C |
C |
| 258 |
9696 CONTINUE |
9696 CONTINUE |
| 259 |
C |
C |
| 260 |
45 continue |
c 45 continue |
| 261 |
|
|
| 262 |
50 continue |
c 50 continue |
| 263 |
|
|
| 264 |
return |
return |
| 265 |
END |
END |
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