/* dawsn.c * * Dawson's Integral * * * * SYNOPSIS: * * double x, y, dawsn(); * * y = dawsn( x ); * * * * DESCRIPTION: * * Approximates the integral * * x * - * 2 | | 2 * dawsn(x) = exp( -x ) | exp( t ) dt * | | * - * 0 * * Three different rational approximations are employed, for * the intervals 0 to 3.25; 3.25 to 6.25; and 6.25 up. * * * ACCURACY: * * Relative error: * arithmetic domain # trials peak rms * IEEE 0,10 10000 6.9e-16 1.0e-16 * DEC 0,10 6000 7.4e-17 1.4e-17 * * */ /* dawsn.c */ /* Cephes Math Library Release 2.8: June, 2000 Copyright 1984, 1987, 1989, 2000 by Stephen L. Moshier */ #include "mconf.h" /* Dawson's integral, interval 0 to 3.25 */ #ifdef UNK static double AN[10] = { 1.13681498971755972054E-11, 8.49262267667473811108E-10, 1.94434204175553054283E-8, 9.53151741254484363489E-7, 3.07828309874913200438E-6, 3.52513368520288738649E-4, -8.50149846724410912031E-4, 4.22618223005546594270E-2, -9.17480371773452345351E-2, 9.99999999999999994612E-1, }; static double AD[11] = { 2.40372073066762605484E-11, 1.48864681368493396752E-9, 5.21265281010541664570E-8, 1.27258478273186970203E-6, 2.32490249820789513991E-5, 3.25524741826057911661E-4, 3.48805814657162590916E-3, 2.79448531198828973716E-2, 1.58874241960120565368E-1, 5.74918629489320327824E-1, 1.00000000000000000539E0, }; #endif #ifdef DEC static unsigned short AN[40] = { 0027107,0176630,0075752,0107612, 0030551,0070604,0166707,0127727, 0031647,0002210,0117120,0056376, 0033177,0156026,0141275,0140627, 0033516,0112200,0037035,0165515, 0035270,0150613,0016423,0105634, 0135536,0156227,0023515,0044413, 0037055,0015273,0105147,0064025, 0137273,0163145,0014460,0166465, 0040200,0000000,0000000,0000000, }; static unsigned short AD[44] = { 0027323,0067372,0115566,0131320, 0030714,0114432,0074206,0006637, 0032137,0160671,0044203,0026344, 0033252,0146656,0020247,0100231, 0034303,0003346,0123260,0022433, 0035252,0125460,0173041,0155415, 0036144,0113747,0125203,0124617, 0036744,0166232,0143671,0133670, 0037442,0127755,0162625,0000100, 0040023,0026736,0003604,0106265, 0040200,0000000,0000000,0000000, }; #endif #ifdef IBMPC static unsigned short AN[40] = { 0x51f1,0x0f7d,0xffb3,0x3da8, 0xf5fb,0x9db8,0x2e30,0x3e0d, 0x0ba0,0x13ca,0xe091,0x3e54, 0xb833,0xd857,0xfb82,0x3eaf, 0xbd6a,0x07c3,0xd290,0x3ec9, 0x7174,0x63a2,0x1a31,0x3f37, 0xa921,0xe4e9,0xdb92,0xbf4b, 0xed03,0x714c,0xa357,0x3fa5, 0x1da7,0xa326,0x7ccc,0xbfb7, 0x0000,0x0000,0x0000,0x3ff0, }; static unsigned short AD[44] = { 0xd65a,0x536e,0x6ddf,0x3dba, 0xc1b4,0x4f10,0x9323,0x3e19, 0x659c,0x2910,0xfc37,0x3e6b, 0xf013,0xc414,0x59b5,0x3eb5, 0x04a3,0xd4d6,0x60dc,0x3ef8, 0x3b62,0x1ec4,0x5566,0x3f35, 0x7532,0xf550,0x92fc,0x3f6c, 0x36f7,0x58f7,0x9d93,0x3f9c, 0xa008,0xbcb2,0x55fd,0x3fc4, 0x9197,0xc0f0,0x65bb,0x3fe2, 0x0000,0x0000,0x0000,0x3ff0, }; #endif #ifdef MIEEE static unsigned short AN[40] = { 0x3da8,0xffb3,0x0f7d,0x51f1, 0x3e0d,0x2e30,0x9db8,0xf5fb, 0x3e54,0xe091,0x13ca,0x0ba0, 0x3eaf,0xfb82,0xd857,0xb833, 0x3ec9,0xd290,0x07c3,0xbd6a, 0x3f37,0x1a31,0x63a2,0x7174, 0xbf4b,0xdb92,0xe4e9,0xa921, 0x3fa5,0xa357,0x714c,0xed03, 0xbfb7,0x7ccc,0xa326,0x1da7, 0x3ff0,0x0000,0x0000,0x0000, }; static unsigned short AD[44] = { 0x3dba,0x6ddf,0x536e,0xd65a, 0x3e19,0x9323,0x4f10,0xc1b4, 0x3e6b,0xfc37,0x2910,0x659c, 0x3eb5,0x59b5,0xc414,0xf013, 0x3ef8,0x60dc,0xd4d6,0x04a3, 0x3f35,0x5566,0x1ec4,0x3b62, 0x3f6c,0x92fc,0xf550,0x7532, 0x3f9c,0x9d93,0x58f7,0x36f7, 0x3fc4,0x55fd,0xbcb2,0xa008, 0x3fe2,0x65bb,0xc0f0,0x9197, 0x3ff0,0x0000,0x0000,0x0000, }; #endif /* interval 3.25 to 6.25 */ #ifdef UNK static double BN[11] = { 5.08955156417900903354E-1, -2.44754418142697847934E-1, 9.41512335303534411857E-2, -2.18711255142039025206E-2, 3.66207612329569181322E-3, -4.23209114460388756528E-4, 3.59641304793896631888E-5, -2.14640351719968974225E-6, 9.10010780076391431042E-8, -2.40274520828250956942E-9, 3.59233385440928410398E-11, }; static double BD[10] = { /* 1.00000000000000000000E0,*/ -6.31839869873368190192E-1, 2.36706788228248691528E-1, -5.31806367003223277662E-2, 8.48041718586295374409E-3, -9.47996768486665330168E-4, 7.81025592944552338085E-5, -4.55875153252442634831E-6, 1.89100358111421846170E-7, -4.91324691331920606875E-9, 7.18466403235734541950E-11, }; #endif #ifdef DEC static unsigned short BN[44] = { 0040002,0045342,0113762,0004360, 0137572,0120346,0172745,0144046, 0037300,0151134,0123440,0117047, 0136663,0025423,0014755,0046026, 0036157,0177561,0027535,0046744, 0135335,0161052,0071243,0146535, 0034426,0154060,0164506,0135625, 0133420,0005356,0100017,0151334, 0032303,0066137,0024013,0046212, 0131045,0016612,0066270,0047574, 0027435,0177025,0060625,0116363, }; static unsigned short BD[40] = { /*0040200,0000000,0000000,0000000,*/ 0140041,0140101,0174552,0037073, 0037562,0061503,0124271,0160756, 0137131,0151760,0073210,0110534, 0036412,0170562,0117017,0155377, 0135570,0101374,0074056,0037276, 0034643,0145376,0001516,0060636, 0133630,0173540,0121344,0155231, 0032513,0005602,0134516,0007144, 0131250,0150540,0075747,0105341, 0027635,0177020,0012465,0125402, }; #endif #ifdef IBMPC static unsigned short BN[44] = { 0x411e,0x52fe,0x495c,0x3fe0, 0xb905,0xdebc,0x541c,0xbfcf, 0x13c5,0x94e4,0x1a4b,0x3fb8, 0xa983,0x633d,0x6562,0xbf96, 0xa9bd,0x25eb,0xffee,0x3f6d, 0x79ac,0x4e54,0xbc45,0xbf3b, 0xd773,0x1d28,0xdb06,0x3f02, 0xfa5b,0xd001,0x015d,0xbec2, 0x6991,0xe501,0x6d8b,0x3e78, 0x09f0,0x4d97,0xa3b1,0xbe24, 0xb39e,0xac32,0xbfc2,0x3dc3, }; static unsigned short BD[40] = { /*0x0000,0x0000,0x0000,0x3ff0,*/ 0x47c7,0x3f2d,0x3808,0xbfe4, 0x3c3e,0x7517,0x4c68,0x3fce, 0x122b,0x0ed1,0x3a7e,0xbfab, 0xfb60,0x53c1,0x5e2e,0x3f81, 0xc7d8,0x8f05,0x105f,0xbf4f, 0xcc34,0xc069,0x795f,0x3f14, 0x9b53,0x145c,0x1eec,0xbed3, 0xc1cd,0x5729,0x6170,0x3e89, 0xf15c,0x0f7c,0x1a2c,0xbe35, 0xb560,0x02a6,0xbfc2,0x3dd3, }; #endif #ifdef MIEEE static unsigned short BN[44] = { 0x3fe0,0x495c,0x52fe,0x411e, 0xbfcf,0x541c,0xdebc,0xb905, 0x3fb8,0x1a4b,0x94e4,0x13c5, 0xbf96,0x6562,0x633d,0xa983, 0x3f6d,0xffee,0x25eb,0xa9bd, 0xbf3b,0xbc45,0x4e54,0x79ac, 0x3f02,0xdb06,0x1d28,0xd773, 0xbec2,0x015d,0xd001,0xfa5b, 0x3e78,0x6d8b,0xe501,0x6991, 0xbe24,0xa3b1,0x4d97,0x09f0, 0x3dc3,0xbfc2,0xac32,0xb39e, }; static unsigned short BD[40] = { /*0x3ff0,0x0000,0x0000,0x0000,*/ 0xbfe4,0x3808,0x3f2d,0x47c7, 0x3fce,0x4c68,0x7517,0x3c3e, 0xbfab,0x3a7e,0x0ed1,0x122b, 0x3f81,0x5e2e,0x53c1,0xfb60, 0xbf4f,0x105f,0x8f05,0xc7d8, 0x3f14,0x795f,0xc069,0xcc34, 0xbed3,0x1eec,0x145c,0x9b53, 0x3e89,0x6170,0x5729,0xc1cd, 0xbe35,0x1a2c,0x0f7c,0xf15c, 0x3dd3,0xbfc2,0x02a6,0xb560, }; #endif /* 6.25 to infinity */ #ifdef UNK static double CN[5] = { -5.90592860534773254987E-1, 6.29235242724368800674E-1, -1.72858975380388136411E-1, 1.64837047825189632310E-2, -4.86827613020462700845E-4, }; static double CD[5] = { /* 1.00000000000000000000E0,*/ -2.69820057197544900361E0, 1.73270799045947845857E0, -3.93708582281939493482E-1, 3.44278924041233391079E-2, -9.73655226040941223894E-4, }; #endif #ifdef DEC static unsigned short CN[20] = { 0140027,0030427,0176477,0074402, 0040041,0012617,0112375,0162657, 0137461,0000761,0074120,0135160, 0036607,0004325,0117246,0115525, 0135377,0036345,0064750,0047732, }; static unsigned short CD[20] = { /*0040200,0000000,0000000,0000000,*/ 0140454,0127521,0071653,0133415, 0040335,0144540,0016105,0045241, 0137711,0112053,0155034,0062237, 0037015,0002102,0177442,0074546, 0135577,0036345,0064750,0052152, }; #endif #ifdef IBMPC static unsigned short CN[20] = { 0xef20,0xffa7,0xe622,0xbfe2, 0xbcb6,0xf29f,0x22b1,0x3fe4, 0x174e,0x2f0a,0x203e,0xbfc6, 0xd36b,0xb3d4,0xe11a,0x3f90, 0x09fb,0xad3d,0xe79c,0xbf3f, }; static unsigned short CD[20] = { /*0x0000,0x0000,0x0000,0x3ff0,*/ 0x76e2,0x2e75,0x95ea,0xc005, 0xa954,0x0388,0xb92c,0x3ffb, 0x8c94,0x7b43,0x3285,0xbfd9, 0x4f2d,0x5fe4,0xa088,0x3fa1, 0x0a8d,0xad3d,0xe79c,0xbf4f, }; #endif #ifdef MIEEE static unsigned short CN[20] = { 0xbfe2,0xe622,0xffa7,0xef20, 0x3fe4,0x22b1,0xf29f,0xbcb6, 0xbfc6,0x203e,0x2f0a,0x174e, 0x3f90,0xe11a,0xb3d4,0xd36b, 0xbf3f,0xe79c,0xad3d,0x09fb, }; static unsigned short CD[20] = { /*0x3ff0,0x0000,0x0000,0x0000,*/ 0xc005,0x95ea,0x2e75,0x76e2, 0x3ffb,0xb92c,0x0388,0xa954, 0xbfd9,0x3285,0x7b43,0x8c94, 0x3fa1,0xa088,0x5fe4,0x4f2d, 0xbf4f,0xe79c,0xad3d,0x0a8d, }; #endif #ifdef ANSIPROT extern double chbevl ( double, void *, int ); extern double sqrt ( double ); extern double fabs ( double ); extern double polevl ( double, void *, int ); extern double p1evl ( double, void *, int ); #else double chbevl(), sqrt(), fabs(), polevl(), p1evl(); #endif extern double PI, MACHEP; double dawsn( xx ) double xx; { double x, y; int sign; sign = 1; if( xx < 0.0 ) { sign = -1; xx = -xx; } if( xx < 3.25 ) { x = xx*xx; y = xx * polevl( x, AN, 9 )/polevl( x, AD, 10 ); return( sign * y ); } x = 1.0/(xx*xx); if( xx < 6.25 ) { y = 1.0/xx + x * polevl( x, BN, 10) / (p1evl( x, BD, 10) * xx); return( sign * 0.5 * y ); } if( xx > 1.0e9 ) return( (sign * 0.5)/xx ); /* 6.25 to infinity */ y = 1.0/xx + x * polevl( x, CN, 4) / (p1evl( x, CD, 5) * xx); return( sign * 0.5 * y ); }