/* exp10.c * * Base 10 exponential function * (Common antilogarithm) * * * * SYNOPSIS: * * double x, y, exp10(); * * y = exp10( 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). * The Pade' form * * 1 + 2x P(x**2)/( Q(x**2) - P(x**2) ) * * is used to approximate 10**f. * * * * ACCURACY: * * Relative error: * arithmetic domain # trials peak rms * IEEE -307,+307 30000 2.2e-16 5.5e-17 * Test result from an earlier version (2.1): * DEC -38,+38 70000 3.1e-17 7.0e-18 * * ERROR MESSAGES: * * message condition value returned * exp10 underflow x < -MAXL10 0.0 * exp10 overflow x > MAXL10 MAXNUM * * DEC arithmetic: MAXL10 = 38.230809449325611792. * IEEE arithmetic: MAXL10 = 308.2547155599167. * */ /* Cephes Math Library Release 2.8: June, 2000 Copyright 1984, 1991, 2000 by Stephen L. Moshier */ #include "mconf.h" #ifdef UNK const static double P[] = { 4.09962519798587023075E-2, 1.17452732554344059015E1, 4.06717289936872725516E2, 2.39423741207388267439E3, }; const static double Q[] = { /* 1.00000000000000000000E0,*/ 8.50936160849306532625E1, 1.27209271178345121210E3, 2.07960819286001865907E3, }; /* const static double LOG102 = 3.01029995663981195214e-1; */ const static double LOG210 = 3.32192809488736234787e0; const static double LG102A = 3.01025390625000000000E-1; const static double LG102B = 4.60503898119521373889E-6; /* const static double MAXL10 = 38.230809449325611792; */ const static double MAXL10 = 308.2547155599167; #endif #ifdef DEC static unsigned short P[] = { 0037047,0165657,0114061,0067234, 0041073,0166243,0123052,0144643, 0042313,0055720,0024032,0047443, 0043025,0121714,0070232,0050007, }; static unsigned short Q[] = { /*0040200,0000000,0000000,0000000,*/ 0041652,0027756,0071216,0050075, 0042637,0001367,0077263,0136017, 0043001,0174673,0024157,0133416, }; /* static unsigned short L102[] = {0037632,0020232,0102373,0147770}; #define LOG102 *(double *)L102 */ static unsigned short L210[] = {0040524,0115170,0045715,0015613}; #define LOG210 *(double *)L210 static unsigned short L102A[] = {0037632,0020000,0000000,0000000,}; #define LG102A *(double *)L102A static unsigned short L102B[] = {0033632,0102373,0147767,0114220,}; #define LG102B *(double *)L102B static unsigned short MXL[] = {0041430,0166131,0047761,0154130,}; #define MAXL10 ( *(double *)MXL ) #endif #ifdef IBMPC static unsigned short P[] = { 0x2dd4,0xf306,0xfd75,0x3fa4, 0x5934,0x74c5,0x7d94,0x4027, 0x49e4,0x0503,0x6b7a,0x4079, 0x4a01,0x8e13,0xb479,0x40a2, }; static unsigned short Q[] = { /*0x0000,0x0000,0x0000,0x3ff0,*/ 0xca08,0xce51,0x45fd,0x4055, 0x7782,0xefd6,0xe05e,0x4093, 0xf6e2,0x650d,0x3f37,0x40a0, }; /* static unsigned short L102[] = {0x79ff,0x509f,0x4413,0x3fd3}; #define LOG102 *(double *)L102 */ static unsigned short L210[] = {0xa371,0x0979,0x934f,0x400a}; #define LOG210 *(double *)L210 static unsigned short L102A[] = {0x0000,0x0000,0x4400,0x3fd3,}; #define LG102A *(double *)L102A static unsigned short L102B[] = {0xf312,0x79fe,0x509f,0x3ed3,}; #define LG102B *(double *)L102B const static double MAXL10 = 308.2547155599167; #endif #ifdef MIEEE static unsigned short P[] = { 0x3fa4,0xfd75,0xf306,0x2dd4, 0x4027,0x7d94,0x74c5,0x5934, 0x4079,0x6b7a,0x0503,0x49e4, 0x40a2,0xb479,0x8e13,0x4a01, }; static unsigned short Q[] = { /*0x3ff0,0x0000,0x0000,0x0000,*/ 0x4055,0x45fd,0xce51,0xca08, 0x4093,0xe05e,0xefd6,0x7782, 0x40a0,0x3f37,0x650d,0xf6e2, }; /* static unsigned short L102[] = {0x3fd3,0x4413,0x509f,0x79ff}; #define LOG102 *(double *)L102 */ static unsigned short L210[] = {0x400a,0x934f,0x0979,0xa371}; #define LOG210 *(double *)L210 static unsigned short L102A[] = {0x3fd3,0x4400,0x0000,0x0000,}; #define LG102A *(double *)L102A static unsigned short L102B[] = {0x3ed3,0x509f,0x79fe,0xf312,}; #define LG102B *(double *)L102B const static double MAXL10 = 308.2547155599167; #endif #ifdef ANSIPROT extern double floor ( double ); extern double ldexp ( double, int ); extern double polevl ( double, void *, int ); extern double p1evl ( double, void *, int ); extern int isnan ( double ); extern int isfinite ( double ); #else double floor(), ldexp(), polevl(), p1evl(); int isnan(), isfinite(); #endif extern double MAXNUM; #ifdef INFINITIES extern double INFINITY; #endif double exp10(x) double x; { double px, xx; short n; #ifdef NANS if( isnan(x) ) return(x); #endif if( x > MAXL10 ) { #ifdef INFINITIES return( INFINITY ); #else mtherr( "exp10", OVERFLOW ); return( MAXNUM ); #endif } if( x < -MAXL10 ) /* Would like to use MINLOG but can't */ { #ifndef INFINITIES mtherr( "exp10", UNDERFLOW ); #endif return(0.0); } /* Express 10**x = 10**g 2**n * = 10**g 10**( n log10(2) ) * = 10**( g + n log10(2) ) */ px = floor( LOG210 * x + 0.5 ); n = px; x -= px * LG102A; x -= px * LG102B; /* rational approximation for exponential * of the fractional part: * 10**x = 1 + 2x P(x**2)/( Q(x**2) - P(x**2) ) */ xx = x * x; px = x * polevl( xx, P, 3 ); x = px/( p1evl( xx, Q, 3 ) - px ); x = 1.0 + ldexp( x, 1 ); /* multiply by power of 2 */ x = ldexp( x, n ); return(x); }