/* exp10f.c * * Base 10 exponential function * (Common antilogarithm) * * * * SYNOPSIS: * * float x, y, exp10f(); * * y = exp10f( x ); * * * * DESCRIPTION: * * Returns 10 raised to the x power. * * Range reduction is accomplished by expressing the argument * as 10**x = 2**n 10**f, with |f| < 0.5 log10(2). * A polynomial approximates 10**f. * * * * ACCURACY: * * Relative error: * arithmetic domain # trials peak rms * IEEE -38,+38 100000 9.8e-8 2.8e-8 * * ERROR MESSAGES: * * message condition value returned * exp10 underflow x < -MAXL10 0.0 * exp10 overflow x > MAXL10 MAXNUM * * IEEE single arithmetic: MAXL10 = 38.230809449325611792. * */ /* Cephes Math Library Release 2.2: June, 1992 Copyright 1984, 1987, 1988, 1992 by Stephen L. Moshier Direct inquiries to 30 Frost Street, Cambridge, MA 02140 */ #include "mconf.h" static float P[] = { 2.063216740311022E-001, 5.420251702225484E-001, 1.171292686296281E+000, 2.034649854009453E+000, 2.650948748208892E+000, 2.302585167056758E+000 }; /*static float LOG102 = 3.01029995663981195214e-1;*/ static float LOG210 = 3.32192809488736234787e0; static float LG102A = 3.00781250000000000000E-1; static float LG102B = 2.48745663981195213739E-4; static float MAXL10 = 38.230809449325611792; extern float MAXNUMF; #ifdef ANSIC float floorf(float), ldexpf(float, int), polevlf(float, float *, int); float exp10f(float xx) #else float floorf(), ldexpf(), polevlf(); float exp10f(xx) double xx; #endif { float x, px, qx; short n; x = xx; if( x > MAXL10 ) { mtherrf( "exp10f", OVERFLOW ); return( MAXNUMF ); } if( x < -MAXL10 ) /* Would like to use MINLOG but can't */ { mtherrf( "exp10f", UNDERFLOW ); return(0.0); } /* The following is necessary because range reduction blows up: */ if( x == 0 ) return(1.0); /* Express 10**x = 10**g 2**n * = 10**g 10**( n log10(2) ) * = 10**( g + n log10(2) ) */ px = x * LOG210; qx = floorf( px + 0.5 ); n = qx; x -= qx * LG102A; x -= qx * LG102B; /* rational approximation for exponential * of the fractional part: * 10**x - 1 = 2x P(x**2)/( Q(x**2) - P(x**2) ) */ px = 1.0 + x * polevlf( x, P, 5 ); /* multiply by power of 2 */ x = ldexpf( px, n ); return(x); }