*> \brief \b DLARUV returns a vector of n random real numbers from a uniform distribution. * * =========== DOCUMENTATION =========== * * Online html documentation available at * http://www.netlib.org/lapack/explore-html/ * *> \htmlonly *> Download DLARUV + dependencies *> *> [TGZ] *> *> [ZIP] *> *> [TXT] *> \endhtmlonly * * Definition: * =========== * * SUBROUTINE DLARUV( ISEED, N, X ) * * .. Scalar Arguments .. * INTEGER N * .. * .. Array Arguments .. * INTEGER ISEED( 4 ) * DOUBLE PRECISION X( N ) * .. * * *> \par Purpose: * ============= *> *> \verbatim *> *> DLARUV returns a vector of n random real numbers from a uniform (0,1) *> distribution (n <= 128). *> *> This is an auxiliary routine called by DLARNV and ZLARNV. *> \endverbatim * * Arguments: * ========== * *> \param[in,out] ISEED *> \verbatim *> ISEED is INTEGER array, dimension (4) *> On entry, the seed of the random number generator; the array *> elements must be between 0 and 4095, and ISEED(4) must be *> odd. *> On exit, the seed is updated. *> \endverbatim *> *> \param[in] N *> \verbatim *> N is INTEGER *> The number of random numbers to be generated. N <= 128. *> \endverbatim *> *> \param[out] X *> \verbatim *> X is DOUBLE PRECISION array, dimension (N) *> The generated random numbers. *> \endverbatim * * Authors: * ======== * *> \author Univ. of Tennessee *> \author Univ. of California Berkeley *> \author Univ. of Colorado Denver *> \author NAG Ltd. * *> \date September 2012 * *> \ingroup OTHERauxiliary * *> \par Further Details: * ===================== *> *> \verbatim *> *> This routine uses a multiplicative congruential method with modulus *> 2**48 and multiplier 33952834046453 (see G.S.Fishman, *> 'Multiplicative congruential random number generators with modulus *> 2**b: an exhaustive analysis for b = 32 and a partial analysis for *> b = 48', Math. Comp. 189, pp 331-344, 1990). *> *> 48-bit integers are stored in 4 integer array elements with 12 bits *> per element. Hence the routine is portable across machines with *> integers of 32 bits or more. *> \endverbatim *> * ===================================================================== SUBROUTINE DLARUV( ISEED, N, X ) * * -- LAPACK auxiliary routine (version 3.4.2) -- * -- LAPACK is a software package provided by Univ. of Tennessee, -- * -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..-- * September 2012 * * .. Scalar Arguments .. INTEGER N * .. * .. Array Arguments .. INTEGER ISEED( 4 ) DOUBLE PRECISION X( N ) * .. * * ===================================================================== * * .. Parameters .. DOUBLE PRECISION ONE PARAMETER ( ONE = 1.0D0 ) INTEGER LV, IPW2 DOUBLE PRECISION R PARAMETER ( LV = 128, IPW2 = 4096, R = ONE / IPW2 ) * .. * .. Local Scalars .. INTEGER I, I1, I2, I3, I4, IT1, IT2, IT3, IT4, J * .. * .. Local Arrays .. INTEGER MM( LV, 4 ) * .. * .. Intrinsic Functions .. INTRINSIC DBLE, MIN, MOD * .. * .. Data statements .. DATA ( MM( 1, J ), J = 1, 4 ) / 494, 322, 2508, $ 2549 / DATA ( MM( 2, J ), J = 1, 4 ) / 2637, 789, 3754, $ 1145 / DATA ( MM( 3, J ), J = 1, 4 ) / 255, 1440, 1766, $ 2253 / DATA ( MM( 4, J ), J = 1, 4 ) / 2008, 752, 3572, $ 305 / DATA ( MM( 5, J ), J = 1, 4 ) / 1253, 2859, 2893, $ 3301 / DATA ( MM( 6, J ), J = 1, 4 ) / 3344, 123, 307, $ 1065 / DATA ( MM( 7, J ), J = 1, 4 ) / 4084, 1848, 1297, $ 3133 / DATA ( MM( 8, J ), J = 1, 4 ) / 1739, 643, 3966, $ 2913 / DATA ( MM( 9, J ), J = 1, 4 ) / 3143, 2405, 758, $ 3285 / DATA ( MM( 10, J ), J = 1, 4 ) / 3468, 2638, 2598, $ 1241 / DATA ( MM( 11, J ), J = 1, 4 ) / 688, 2344, 3406, $ 1197 / DATA ( MM( 12, J ), J = 1, 4 ) / 1657, 46, 2922, $ 3729 / DATA ( MM( 13, J ), J = 1, 4 ) / 1238, 3814, 1038, $ 2501 / DATA ( MM( 14, J ), J = 1, 4 ) / 3166, 913, 2934, $ 1673 / DATA ( MM( 15, J ), J = 1, 4 ) / 1292, 3649, 2091, $ 541 / DATA ( MM( 16, J ), J = 1, 4 ) / 3422, 339, 2451, $ 2753 / DATA ( MM( 17, J ), J = 1, 4 ) / 1270, 3808, 1580, $ 949 / DATA ( MM( 18, J ), J = 1, 4 ) / 2016, 822, 1958, $ 2361 / DATA ( MM( 19, J ), J = 1, 4 ) / 154, 2832, 2055, $ 1165 / DATA ( MM( 20, J ), J = 1, 4 ) / 2862, 3078, 1507, $ 4081 / DATA ( MM( 21, J ), J = 1, 4 ) / 697, 3633, 1078, $ 2725 / DATA ( MM( 22, J ), J = 1, 4 ) / 1706, 2970, 3273, $ 3305 / DATA ( MM( 23, J ), J = 1, 4 ) / 491, 637, 17, $ 3069 / DATA ( MM( 24, J ), J = 1, 4 ) / 931, 2249, 854, $ 3617 / DATA ( MM( 25, J ), J = 1, 4 ) / 1444, 2081, 2916, $ 3733 / DATA ( MM( 26, J ), J = 1, 4 ) / 444, 4019, 3971, $ 409 / DATA ( MM( 27, J ), J = 1, 4 ) / 3577, 1478, 2889, $ 2157 / DATA ( MM( 28, J ), J = 1, 4 ) / 3944, 242, 3831, $ 1361 / DATA ( MM( 29, J ), J = 1, 4 ) / 2184, 481, 2621, $ 3973 / DATA ( MM( 30, J ), J = 1, 4 ) / 1661, 2075, 1541, $ 1865 / DATA ( MM( 31, J ), J = 1, 4 ) / 3482, 4058, 893, $ 2525 / DATA ( MM( 32, J ), J = 1, 4 ) / 657, 622, 736, $ 1409 / DATA ( MM( 33, J ), J = 1, 4 ) / 3023, 3376, 3992, $ 3445 / DATA ( MM( 34, J ), J = 1, 4 ) / 3618, 812, 787, $ 3577 / DATA ( MM( 35, J ), J = 1, 4 ) / 1267, 234, 2125, $ 77 / DATA ( MM( 36, J ), J = 1, 4 ) / 1828, 641, 2364, $ 3761 / DATA ( MM( 37, J ), J = 1, 4 ) / 164, 4005, 2460, $ 2149 / DATA ( MM( 38, J ), J = 1, 4 ) / 3798, 1122, 257, $ 1449 / DATA ( MM( 39, J ), J = 1, 4 ) / 3087, 3135, 1574, $ 3005 / DATA ( MM( 40, J ), J = 1, 4 ) / 2400, 2640, 3912, $ 225 / DATA ( MM( 41, J ), J = 1, 4 ) / 2870, 2302, 1216, $ 85 / DATA ( MM( 42, J ), J = 1, 4 ) / 3876, 40, 3248, $ 3673 / DATA ( MM( 43, J ), J = 1, 4 ) / 1905, 1832, 3401, $ 3117 / DATA ( MM( 44, J ), J = 1, 4 ) / 1593, 2247, 2124, $ 3089 / DATA ( MM( 45, J ), J = 1, 4 ) / 1797, 2034, 2762, $ 1349 / DATA ( MM( 46, J ), J = 1, 4 ) / 1234, 2637, 149, $ 2057 / DATA ( MM( 47, J ), J = 1, 4 ) / 3460, 1287, 2245, $ 413 / DATA ( MM( 48, J ), J = 1, 4 ) / 328, 1691, 166, $ 65 / DATA ( MM( 49, J ), J = 1, 4 ) / 2861, 496, 466, $ 1845 / DATA ( MM( 50, J ), J = 1, 4 ) / 1950, 1597, 4018, $ 697 / DATA ( MM( 51, J ), J = 1, 4 ) / 617, 2394, 1399, $ 3085 / DATA ( MM( 52, J ), J = 1, 4 ) / 2070, 2584, 190, $ 3441 / DATA ( MM( 53, J ), J = 1, 4 ) / 3331, 1843, 2879, $ 1573 / DATA ( MM( 54, J ), J = 1, 4 ) / 769, 336, 153, $ 3689 / DATA ( MM( 55, J ), J = 1, 4 ) / 1558, 1472, 2320, $ 2941 / DATA ( MM( 56, J ), J = 1, 4 ) / 2412, 2407, 18, $ 929 / DATA ( MM( 57, J ), J = 1, 4 ) / 2800, 433, 712, $ 533 / DATA ( MM( 58, J ), J = 1, 4 ) / 189, 2096, 2159, $ 2841 / DATA ( MM( 59, J ), J = 1, 4 ) / 287, 1761, 2318, $ 4077 / DATA ( MM( 60, J ), J = 1, 4 ) / 2045, 2810, 2091, $ 721 / DATA ( MM( 61, J ), J = 1, 4 ) / 1227, 566, 3443, $ 2821 / DATA ( MM( 62, J ), J = 1, 4 ) / 2838, 442, 1510, $ 2249 / DATA ( MM( 63, J ), J = 1, 4 ) / 209, 41, 449, $ 2397 / DATA ( MM( 64, J ), J = 1, 4 ) / 2770, 1238, 1956, $ 2817 / DATA ( MM( 65, J ), J = 1, 4 ) / 3654, 1086, 2201, $ 245 / DATA ( MM( 66, J ), J = 1, 4 ) / 3993, 603, 3137, $ 1913 / DATA ( MM( 67, J ), J = 1, 4 ) / 192, 840, 3399, $ 1997 / DATA ( MM( 68, J ), J = 1, 4 ) / 2253, 3168, 1321, $ 3121 / DATA ( MM( 69, J ), J = 1, 4 ) / 3491, 1499, 2271, $ 997 / DATA ( MM( 70, J ), J = 1, 4 ) / 2889, 1084, 3667, $ 1833 / DATA ( MM( 71, J ), J = 1, 4 ) / 2857, 3438, 2703, $ 2877 / DATA ( MM( 72, J ), J = 1, 4 ) / 2094, 2408, 629, $ 1633 / DATA ( MM( 73, J ), J = 1, 4 ) / 1818, 1589, 2365, $ 981 / DATA ( MM( 74, J ), J = 1, 4 ) / 688, 2391, 2431, $ 2009 / DATA ( MM( 75, J ), J = 1, 4 ) / 1407, 288, 1113, $ 941 / DATA ( MM( 76, J ), J = 1, 4 ) / 634, 26, 3922, $ 2449 / DATA ( MM( 77, J ), J = 1, 4 ) / 3231, 512, 2554, $ 197 / DATA ( MM( 78, J ), J = 1, 4 ) / 815, 1456, 184, $ 2441 / DATA ( MM( 79, J ), J = 1, 4 ) / 3524, 171, 2099, $ 285 / DATA ( MM( 80, J ), J = 1, 4 ) / 1914, 1677, 3228, $ 1473 / DATA ( MM( 81, J ), J = 1, 4 ) / 516, 2657, 4012, $ 2741 / DATA ( MM( 82, J ), J = 1, 4 ) / 164, 2270, 1921, $ 3129 / DATA ( MM( 83, J ), J = 1, 4 ) / 303, 2587, 3452, $ 909 / DATA ( MM( 84, J ), J = 1, 4 ) / 2144, 2961, 3901, $ 2801 / DATA ( MM( 85, J ), J = 1, 4 ) / 3480, 1970, 572, $ 421 / DATA ( MM( 86, J ), J = 1, 4 ) / 119, 1817, 3309, $ 4073 / DATA ( MM( 87, J ), J = 1, 4 ) / 3357, 676, 3171, $ 2813 / DATA ( MM( 88, J ), J = 1, 4 ) / 837, 1410, 817, $ 2337 / DATA ( MM( 89, J ), J = 1, 4 ) / 2826, 3723, 3039, $ 1429 / DATA ( MM( 90, J ), J = 1, 4 ) / 2332, 2803, 1696, $ 1177 / DATA ( MM( 91, J ), J = 1, 4 ) / 2089, 3185, 1256, $ 1901 / DATA ( MM( 92, J ), J = 1, 4 ) / 3780, 184, 3715, $ 81 / DATA ( MM( 93, J ), J = 1, 4 ) / 1700, 663, 2077, $ 1669 / DATA ( MM( 94, J ), J = 1, 4 ) / 3712, 499, 3019, $ 2633 / DATA ( MM( 95, J ), J = 1, 4 ) / 150, 3784, 1497, $ 2269 / DATA ( MM( 96, J ), J = 1, 4 ) / 2000, 1631, 1101, $ 129 / DATA ( MM( 97, J ), J = 1, 4 ) / 3375, 1925, 717, $ 1141 / DATA ( MM( 98, J ), J = 1, 4 ) / 1621, 3912, 51, $ 249 / DATA ( MM( 99, J ), J = 1, 4 ) / 3090, 1398, 981, $ 3917 / DATA ( MM( 100, J ), J = 1, 4 ) / 3765, 1349, 1978, $ 2481 / DATA ( MM( 101, J ), J = 1, 4 ) / 1149, 1441, 1813, $ 3941 / DATA ( MM( 102, J ), J = 1, 4 ) / 3146, 2224, 3881, $ 2217 / DATA ( MM( 103, J ), J = 1, 4 ) / 33, 2411, 76, $ 2749 / DATA ( MM( 104, J ), J = 1, 4 ) / 3082, 1907, 3846, $ 3041 / DATA ( MM( 105, J ), J = 1, 4 ) / 2741, 3192, 3694, $ 1877 / DATA ( MM( 106, J ), J = 1, 4 ) / 359, 2786, 1682, $ 345 / DATA ( MM( 107, J ), J = 1, 4 ) / 3316, 382, 124, $ 2861 / DATA ( MM( 108, J ), J = 1, 4 ) / 1749, 37, 1660, $ 1809 / DATA ( MM( 109, J ), J = 1, 4 ) / 185, 759, 3997, $ 3141 / DATA ( MM( 110, J ), J = 1, 4 ) / 2784, 2948, 479, $ 2825 / DATA ( MM( 111, J ), J = 1, 4 ) / 2202, 1862, 1141, $ 157 / DATA ( MM( 112, J ), J = 1, 4 ) / 2199, 3802, 886, $ 2881 / DATA ( MM( 113, J ), J = 1, 4 ) / 1364, 2423, 3514, $ 3637 / DATA ( MM( 114, J ), J = 1, 4 ) / 1244, 2051, 1301, $ 1465 / DATA ( MM( 115, J ), J = 1, 4 ) / 2020, 2295, 3604, $ 2829 / DATA ( MM( 116, J ), J = 1, 4 ) / 3160, 1332, 1888, $ 2161 / DATA ( MM( 117, J ), J = 1, 4 ) / 2785, 1832, 1836, $ 3365 / DATA ( MM( 118, J ), J = 1, 4 ) / 2772, 2405, 1990, $ 361 / DATA ( MM( 119, J ), J = 1, 4 ) / 1217, 3638, 2058, $ 2685 / DATA ( MM( 120, J ), J = 1, 4 ) / 1822, 3661, 692, $ 3745 / DATA ( MM( 121, J ), J = 1, 4 ) / 1245, 327, 1194, $ 2325 / DATA ( MM( 122, J ), J = 1, 4 ) / 2252, 3660, 20, $ 3609 / DATA ( MM( 123, J ), J = 1, 4 ) / 3904, 716, 3285, $ 3821 / DATA ( MM( 124, J ), J = 1, 4 ) / 2774, 1842, 2046, $ 3537 / DATA ( MM( 125, J ), J = 1, 4 ) / 997, 3987, 2107, $ 517 / DATA ( MM( 126, J ), J = 1, 4 ) / 2573, 1368, 3508, $ 3017 / DATA ( MM( 127, J ), J = 1, 4 ) / 1148, 1848, 3525, $ 2141 / DATA ( MM( 128, J ), J = 1, 4 ) / 545, 2366, 3801, $ 1537 / * .. * .. Executable Statements .. * I1 = ISEED( 1 ) I2 = ISEED( 2 ) I3 = ISEED( 3 ) I4 = ISEED( 4 ) * DO 10 I = 1, MIN( N, LV ) * 20 CONTINUE * * Multiply the seed by i-th power of the multiplier modulo 2**48 * IT4 = I4*MM( I, 4 ) IT3 = IT4 / IPW2 IT4 = IT4 - IPW2*IT3 IT3 = IT3 + I3*MM( I, 4 ) + I4*MM( I, 3 ) IT2 = IT3 / IPW2 IT3 = IT3 - IPW2*IT2 IT2 = IT2 + I2*MM( I, 4 ) + I3*MM( I, 3 ) + I4*MM( I, 2 ) IT1 = IT2 / IPW2 IT2 = IT2 - IPW2*IT1 IT1 = IT1 + I1*MM( I, 4 ) + I2*MM( I, 3 ) + I3*MM( I, 2 ) + $ I4*MM( I, 1 ) IT1 = MOD( IT1, IPW2 ) * * Convert 48-bit integer to a real number in the interval (0,1) * X( I ) = R*( DBLE( IT1 )+R*( DBLE( IT2 )+R*( DBLE( IT3 )+R* $ DBLE( IT4 ) ) ) ) * IF (X( I ).EQ.1.0D0) THEN * If a real number has n bits of precision, and the first * n bits of the 48-bit integer above happen to be all 1 (which * will occur about once every 2**n calls), then X( I ) will * be rounded to exactly 1.0. * Since X( I ) is not supposed to return exactly 0.0 or 1.0, * the statistically correct thing to do in this situation is * simply to iterate again. * N.B. the case X( I ) = 0.0 should not be possible. I1 = I1 + 2 I2 = I2 + 2 I3 = I3 + 2 I4 = I4 + 2 GOTO 20 END IF * 10 CONTINUE * * Return final value of seed * ISEED( 1 ) = IT1 ISEED( 2 ) = IT2 ISEED( 3 ) = IT3 ISEED( 4 ) = IT4 RETURN * * End of DLARUV * END