| 18448239 |
1 | C* |
| 2 | C* $Id$ |
| 3 | C* |
| 18448239 |
4 | C#include "gen/pilot.h" |
| 5 | SUBROUTINE RANLUX2(RVEC,LENV,Input_seed) |
| 6 | C Subtract-and-borrow random number generator proposed by |
| 7 | C Marsaglia and Zaman, implemented by F. James with the name |
| 8 | C RCARRY in 1991, and later improved by Martin Luescher |
| 9 | C in 1993 to produce "Luxury Pseudorandom Numbers". |
| 10 | C Fortran 77 coded by F. James, 1993 |
| 11 | C |
| 12 | C LUXURY LEVELS. |
| 13 | C ------ ------ The available luxury levels are: |
| 14 | C |
| 15 | C level 0 (p=24): equivalent to the original RCARRY of Marsaglia |
| 16 | C and Zaman, very long period, but fails many tests. |
| 17 | C level 1 (p=48): considerable improvement in quality over level 0, |
| 18 | C now passes the gap test, but still fails spectral test. |
| 19 | C level 2 (p=97): passes all known tests, but theoretically still |
| 20 | C defective. |
| 21 | C level 3 (p=223): DEFAULT VALUE. Any theoretically possible |
| 22 | C correlations have very small chance of being observed. |
| 23 | C level 4 (p=389): highest possible luxury, all 24 bits chaotic. |
| 24 | C |
| 25 | C!!! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
| 26 | C!!! Calling sequences for RANLUX: ++ |
| 27 | C!!! CALL RANLUX (RVEC, LEN) returns a vector RVEC of LEN ++ |
| 28 | C!!! 32-bit random floating point numbers between ++ |
| 29 | C!!! zero (not included) and one (also not incl.). ++ |
| 30 | C!!! CALL RLUXGO(LUX,INT,K1,K2) initializes the generator from ++ |
| 31 | C!!! one 32-bit integer INT and sets Luxury Level LUX ++ |
| 32 | C!!! which is integer between zero and MAXLEV, or if ++ |
| 33 | C!!! LUX .GT. 24, it sets p=LUX directly. K1 and K2 ++ |
| 34 | C!!! should be set to zero unless restarting at a break++ |
| 35 | C!!! point given by output of RLUXAT (see RLUXAT). ++ |
| 36 | C!!! CALL RLUXAT(LUX,INT,K1,K2) gets the values of four integers++ |
| 37 | C!!! which can be used to restart the RANLUX generator ++ |
| 38 | C!!! at the current point by calling RLUXGO. K1 and K2++ |
| 39 | C!!! specify how many numbers were generated since the ++ |
| 40 | C!!! initialization with LUX and INT. The restarting ++ |
| 41 | C!!! skips over K1+K2*E9 numbers, so it can be long.++ |
| 42 | C!!! A more efficient but less convenient way of restarting is by: ++ |
| 43 | C!!! CALL RLUXIN(ISVEC) restarts the generator from vector ++ |
| 44 | C!!! ISVEC of 25 32-bit integers (see RLUXUT) ++ |
| 45 | C!!! CALL RLUXUT(ISVEC) outputs the current values of the 25 ++ |
| 46 | C!!! 32-bit integer seeds, to be used for restarting ++ |
| 47 | C!!! ISVEC must be dimensioned 25 in the calling program ++ |
| 48 | C!!! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
| 49 | DIMENSION RVEC(LENV) |
| 50 | DIMENSION SEEDS(24), ISEEDS(24), ISDEXT(25) |
| 51 | PARAMETER (MAXLEV=4, LXDFLT=3) |
| 52 | DIMENSION NDSKIP(0:MAXLEV) |
| 53 | DIMENSION NEXT(24) |
| 54 | PARAMETER (TWOP12=4096., IGIGA=1000000000,JSDFLT=314159265) |
| 55 | PARAMETER (ITWO24=2**24, ICONS=2147483563) |
| 56 | SAVE NOTYET, I24, J24, CARRY, SEEDS, TWOM24, TWOM12, LUXLEV |
| 57 | SAVE NSKIP, NDSKIP, IN24, NEXT, KOUNT, MKOUNT, INSEED |
| 58 | INTEGER LUXLEV |
| 59 | Integer Input_seed,JSDFLT_set |
| 60 | LOGICAL NOTYET |
| 61 | DATA NOTYET, LUXLEV, IN24, KOUNT, MKOUNT /.TRUE., LXDFLT, 0,0,0/ |
| 62 | DATA I24,J24,CARRY/24,10,0./ |
| 63 | CCC Set starting seed value: |
| 64 | If(Input_seed.gt.0) then |
| 65 | JSDFLT_set = Input_seed |
| 66 | Else |
| 67 | JSDFLT_set = JSDFLT |
| 68 | End If |
| 69 | C default |
| 70 | C Luxury Level 0 1 2 *3* 4 |
| 71 | DATA NDSKIP/0, 24, 73, 199, 365 / |
| 72 | Corresponds to p=24 48 97 223 389 |
| 73 | C time factor 1 2 3 6 10 on slow workstation |
| 74 | C 1 1.5 2 3 5 on fast mainframe |
| 75 | C |
| 76 | C NOTYET is .TRUE. if no initialization has been performed yet. |
| 77 | C Default Initialization by Multiplicative Congruential |
| 78 | IF (NOTYET) THEN |
| 79 | NOTYET = .FALSE. |
| 80 | JSEED = JSDFLT_set |
| 81 | INSEED = JSEED |
| 82 | WRITE(6,'(A,I12)') ' RANLUX DEFAULT INITIALIZATION: ',JSEED |
| 83 | LUXLEV = LXDFLT |
| 84 | NSKIP = NDSKIP(LUXLEV) |
| 85 | LP = NSKIP + 24 |
| 86 | IN24 = 0 |
| 87 | KOUNT = 0 |
| 88 | MKOUNT = 0 |
| 89 | WRITE(6,'(A,I2,A,I4)') ' RANLUX DEFAULT LUXURY LEVEL = ', |
| 90 | + LUXLEV,' p =',LP |
| 91 | TWOM24 = 1. |
| 92 | DO 25 I= 1, 24 |
| 93 | TWOM24 = TWOM24 * 0.5 |
| 94 | K = JSEED/53668 |
| 95 | JSEED = 40014*(JSEED-K*53668) -K*12211 |
| 96 | IF (JSEED .LT. 0) JSEED = JSEED+ICONS |
| 97 | ISEEDS(I) = MOD(JSEED,ITWO24) |
| 98 | 25 CONTINUE |
| 99 | TWOM12 = TWOM24 * 4096. |
| 100 | DO 50 I= 1,24 |
| 101 | SEEDS(I) = REAL(ISEEDS(I))*TWOM24 |
| 102 | NEXT(I) = I-1 |
| 103 | 50 CONTINUE |
| 104 | NEXT(1) = 24 |
| 105 | I24 = 24 |
| 106 | J24 = 10 |
| 107 | CARRY = 0. |
| 108 | IF (SEEDS(24) .EQ. 0.) CARRY = TWOM24 |
| 109 | ENDIF |
| 110 | C |
| 111 | C The Generator proper: "Subtract-with-borrow", |
| 112 | C as proposed by Marsaglia and Zaman, |
| 113 | C Florida State University, March, 1989 |
| 114 | C |
| 115 | DO 100 IVEC= 1, LENV |
| 116 | UNI = SEEDS(J24) - SEEDS(I24) - CARRY |
| 117 | IF (UNI .LT. 0.) THEN |
| 118 | UNI = UNI + 1.0 |
| 119 | CARRY = TWOM24 |
| 120 | ELSE |
| 121 | CARRY = 0. |
| 122 | ENDIF |
| 123 | SEEDS(I24) = UNI |
| 124 | I24 = NEXT(I24) |
| 125 | J24 = NEXT(J24) |
| 126 | RVEC(IVEC) = UNI |
| 127 | C small numbers (with less than 12 "significant" bits) are "padded". |
| 128 | IF (UNI .LT. TWOM12) THEN |
| 129 | RVEC(IVEC) = RVEC(IVEC) + TWOM24*SEEDS(J24) |
| 130 | C and zero is forbidden in case someone takes a logarithm |
| 131 | IF (RVEC(IVEC) .EQ. 0.) RVEC(IVEC) = TWOM24*TWOM24 |
| 132 | ENDIF |
| 133 | C Skipping to luxury. As proposed by Martin Luscher. |
| 134 | IN24 = IN24 + 1 |
| 135 | IF (IN24 .EQ. 24) THEN |
| 136 | IN24 = 0 |
| 137 | KOUNT = KOUNT + NSKIP |
| 138 | DO 90 ISK= 1, NSKIP |
| 139 | UNI = SEEDS(J24) - SEEDS(I24) - CARRY |
| 140 | IF (UNI .LT. 0.) THEN |
| 141 | UNI = UNI + 1.0 |
| 142 | CARRY = TWOM24 |
| 143 | ELSE |
| 144 | CARRY = 0. |
| 145 | ENDIF |
| 146 | SEEDS(I24) = UNI |
| 147 | I24 = NEXT(I24) |
| 148 | J24 = NEXT(J24) |
| 149 | 90 CONTINUE |
| 150 | ENDIF |
| 151 | 100 CONTINUE |
| 152 | KOUNT = KOUNT + LENV |
| 153 | IF (KOUNT .GE. IGIGA) THEN |
| 154 | MKOUNT = MKOUNT + 1 |
| 155 | KOUNT = KOUNT - IGIGA |
| 156 | ENDIF |
| 157 | RETURN |
| 158 | C |
| 159 | C Entry to input and float integer seeds from previous run |
| 160 | ENTRY RLUXIN(ISDEXT) |
| 161 | NOTYET = .FALSE. |
| 162 | TWOM24 = 1. |
| 163 | DO 195 I= 1, 24 |
| 164 | NEXT(I) = I-1 |
| 165 | 195 TWOM24 = TWOM24 * 0.5 |
| 166 | NEXT(1) = 24 |
| 167 | TWOM12 = TWOM24 * 4096. |
| 168 | WRITE(6,'(A)') ' FULL INITIALIZATION OF RANLUX WITH 25 INTEGERS:' |
| 169 | WRITE(6,'(5X,5I12)') ISDEXT |
| 170 | DO 200 I= 1, 24 |
| 171 | SEEDS(I) = REAL(ISDEXT(I))*TWOM24 |
| 172 | 200 CONTINUE |
| 173 | CARRY = 0. |
| 174 | IF (ISDEXT(25) .LT. 0) CARRY = TWOM24 |
| 175 | ISD = IABS(ISDEXT(25)) |
| 176 | I24 = MOD(ISD,100) |
| 177 | ISD = ISD/100 |
| 178 | J24 = MOD(ISD,100) |
| 179 | ISD = ISD/100 |
| 180 | IN24 = MOD(ISD,100) |
| 181 | ISD = ISD/100 |
| 182 | LUXLEV = ISD |
| 183 | IF (LUXLEV .LE. MAXLEV) THEN |
| 184 | NSKIP = NDSKIP(LUXLEV) |
| 185 | WRITE (6,'(A,I2)') ' RANLUX LUXURY LEVEL SET BY RLUXIN TO: ', |
| 186 | + LUXLEV |
| 187 | ELSE IF (LUXLEV .GE. 24) THEN |
| 188 | NSKIP = LUXLEV - 24 |
| 189 | WRITE (6,'(A,I5)') ' RANLUX P-VALUE SET BY RLUXIN TO:',LUXLEV |
| 190 | ELSE |
| 191 | NSKIP = NDSKIP(MAXLEV) |
| 192 | WRITE (6,'(A,I5)') ' RANLUX ILLEGAL LUXURY RLUXIN: ',LUXLEV |
| 193 | LUXLEV = MAXLEV |
| 194 | ENDIF |
| 195 | INSEED = -1 |
| 196 | RETURN |
| 197 | C |
| 198 | C Entry to ouput seeds as integers |
| 199 | ENTRY RLUXUT(ISDEXT) |
| 200 | DO 300 I= 1, 24 |
| 201 | ISDEXT(I) = INT(SEEDS(I)*TWOP12*TWOP12) |
| 202 | 300 CONTINUE |
| 203 | ISDEXT(25) = I24 + 100*J24 + 10000*IN24 + 1000000*LUXLEV |
| 204 | IF (CARRY .GT. 0.) ISDEXT(25) = -ISDEXT(25) |
| 205 | RETURN |
| 206 | C |
| 207 | C Entry to output the "convenient" restart point |
| 208 | ENTRY RLUXAT(LOUT,INOUT,K1,K2) |
| 209 | LOUT = LUXLEV |
| 210 | INOUT = INSEED |
| 211 | K1 = KOUNT |
| 212 | K2 = MKOUNT |
| 213 | RETURN |
| 214 | C |
| 215 | C Entry to initialize from one or three integers |
| 216 | ENTRY RLUXGO(LUX,INS,K1,K2) |
| 217 | IF (LUX .LT. 0) THEN |
| 218 | LUXLEV = LXDFLT |
| 219 | ELSE IF (LUX .LE. MAXLEV) THEN |
| 220 | LUXLEV = LUX |
| 221 | ELSE IF (LUX .LT. 24 .OR. LUX .GT. 2000) THEN |
| 222 | LUXLEV = MAXLEV |
| 223 | WRITE (6,'(A,I7)') ' RANLUX ILLEGAL LUXURY RLUXGO: ',LUX |
| 224 | ELSE |
| 225 | LUXLEV = LUX |
| 226 | DO 310 ILX= 0, MAXLEV |
| 227 | IF (LUX .EQ. NDSKIP(ILX)+24) LUXLEV = ILX |
| 228 | 310 CONTINUE |
| 229 | ENDIF |
| 230 | IF (LUXLEV .LE. MAXLEV) THEN |
| 231 | NSKIP = NDSKIP(LUXLEV) |
| 232 | WRITE(6,'(A,I2,A,I4)') ' RANLUX LUXURY LEVEL SET BY RLUXGO :', |
| 233 | + LUXLEV,' P=', NSKIP+24 |
| 234 | ELSE |
| 235 | NSKIP = LUXLEV - 24 |
| 236 | WRITE (6,'(A,I5)') ' RANLUX P-VALUE SET BY RLUXGO TO:',LUXLEV |
| 237 | ENDIF |
| 238 | IN24 = 0 |
| 239 | IF (INS .LT. 0) WRITE (6,'(A)') |
| 240 | + ' Illegal initialization by RLUXGO, negative input seed' |
| 241 | IF (INS .GT. 0) THEN |
| 242 | JSEED = INS |
| 243 | WRITE(6,'(A,3I12)') ' RANLUX INITIALIZED BY RLUXGO FROM SEEDS', |
| 244 | + JSEED, K1,K2 |
| 245 | ELSE |
| 246 | JSEED = JSDFLT_set |
| 247 | WRITE(6,'(A)')' RANLUX INITIALIZED BY RLUXGO FROM DEFAULT SEED' |
| 248 | ENDIF |
| 249 | INSEED = JSEED |
| 250 | NOTYET = .FALSE. |
| 251 | TWOM24 = 1. |
| 252 | DO 325 I= 1, 24 |
| 253 | TWOM24 = TWOM24 * 0.5 |
| 254 | K = JSEED/53668 |
| 255 | JSEED = 40014*(JSEED-K*53668) -K*12211 |
| 256 | IF (JSEED .LT. 0) JSEED = JSEED+ICONS |
| 257 | ISEEDS(I) = MOD(JSEED,ITWO24) |
| 258 | 325 CONTINUE |
| 259 | TWOM12 = TWOM24 * 4096. |
| 260 | DO 350 I= 1,24 |
| 261 | SEEDS(I) = REAL(ISEEDS(I))*TWOM24 |
| 262 | NEXT(I) = I-1 |
| 263 | 350 CONTINUE |
| 264 | NEXT(1) = 24 |
| 265 | I24 = 24 |
| 266 | J24 = 10 |
| 267 | CARRY = 0. |
| 268 | IF (SEEDS(24) .EQ. 0.) CARRY = TWOM24 |
| 269 | C If restarting at a break point, skip K1 + IGIGA*K2 |
| 270 | C Note that this is the number of numbers delivered to |
| 271 | C the user PLUS the number skipped (if luxury .GT. 0). |
| 272 | KOUNT = K1 |
| 273 | MKOUNT = K2 |
| 274 | IF (K1+K2 .NE. 0) THEN |
| 275 | DO 500 IOUTER= 1, K2+1 |
| 276 | INNER = IGIGA |
| 277 | IF (IOUTER .EQ. K2+1) INNER = K1 |
| 278 | DO 450 ISK= 1, INNER |
| 279 | UNI = SEEDS(J24) - SEEDS(I24) - CARRY |
| 280 | IF (UNI .LT. 0.) THEN |
| 281 | UNI = UNI + 1.0 |
| 282 | CARRY = TWOM24 |
| 283 | ELSE |
| 284 | CARRY = 0. |
| 285 | ENDIF |
| 286 | SEEDS(I24) = UNI |
| 287 | I24 = NEXT(I24) |
| 288 | J24 = NEXT(J24) |
| 289 | 450 CONTINUE |
| 290 | 500 CONTINUE |
| 291 | C Get the right value of IN24 by direct calculation |
| 292 | IN24 = MOD(KOUNT, NSKIP+24) |
| 293 | IF (MKOUNT .GT. 0) THEN |
| 294 | IZIP = MOD(IGIGA, NSKIP+24) |
| 295 | IZIP2 = MKOUNT*IZIP + IN24 |
| 296 | IN24 = MOD(IZIP2, NSKIP+24) |
| 297 | ENDIF |
| 298 | C Now IN24 had better be between zero and 23 inclusive |
| 299 | IF (IN24 .GT. 23) THEN |
| 300 | WRITE (6,'(A/A,3I11,A,I5)') |
| 301 | + ' Error in RESTARTING with RLUXGO:',' The values', INS, |
| 302 | + K1, K2, ' cannot occur at luxury level', LUXLEV |
| 303 | IN24 = 0 |
| 304 | ENDIF |
| 305 | ENDIF |
| 306 | RETURN |
| 307 | END |
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