/* spencef.c * * Dilogarithm * * * * SYNOPSIS: * * float x, y, spencef(); * * y = spencef( x ); * * * * DESCRIPTION: * * Computes the integral * * x * - * | | log t * spence(x) = - | ----- dt * | | t - 1 * - * 1 * * for x >= 0. A rational approximation gives the integral in * the interval (0.5, 1.5). Transformation formulas for 1/x * and 1-x are employed outside the basic expansion range. * * * * ACCURACY: * * Relative error: * arithmetic domain # trials peak rms * IEEE 0,4 30000 4.4e-7 6.3e-8 * * */ /* spence.c */ /* Cephes Math Library Release 2.1: January, 1989 Copyright 1985, 1987, 1989 by Stephen L. Moshier Direct inquiries to 30 Frost Street, Cambridge, MA 02140 */ #include "mconf.h" static float A[8] = { 4.65128586073990045278E-5, 7.31589045238094711071E-3, 1.33847639578309018650E-1, 8.79691311754530315341E-1, 2.71149851196553469920E0, 4.25697156008121755724E0, 3.29771340985225106936E0, 1.00000000000000000126E0, }; static float B[8] = { 6.90990488912553276999E-4, 2.54043763932544379113E-2, 2.82974860602568089943E-1, 1.41172597751831069617E0, 3.63800533345137075418E0, 5.03278880143316990390E0, 3.54771340985225096217E0, 9.99999999999999998740E-1, }; extern float PIF, MACHEPF; /* pi * pi / 6 */ #define PIFS 1.64493406684822643647 #ifdef ANSIC float logf(float), polevlf(float, float *, int); float spencef(float xx) #else float logf(), polevlf(); float spencef(xx) double xx; #endif { float x, w, y, z; int flag; x = xx; if( x < 0.0 ) { mtherrf( "spencef", DOMAIN ); return(0.0); } if( x == 1.0 ) return( 0.0 ); if( x == 0.0 ) return( PIFS ); flag = 0; if( x > 2.0 ) { x = 1.0/x; flag |= 2; } if( x > 1.5 ) { w = (1.0/x) - 1.0; flag |= 2; } else if( x < 0.5 ) { w = -x; flag |= 1; } else w = x - 1.0; y = -w * polevlf( w, A, 7) / polevlf( w, B, 7 ); if( flag & 1 ) y = PIFS - logf(x) * logf(1.0-x) - y; if( flag & 2 ) { z = logf(x); y = -0.5 * z * z - y; } return( y ); }