/* tandg.c * * Circular tangent of argument in degrees * * * * SYNOPSIS: * * double x, y, tandg(); * * y = tandg( x ); * * * * DESCRIPTION: * * Returns the circular tangent of the argument x in degrees. * * Range reduction is modulo pi/4. A rational function * x + x**3 P(x**2)/Q(x**2) * is employed in the basic interval [0, pi/4]. * * * * ACCURACY: * * Relative error: * arithmetic domain # trials peak rms * DEC 0,10 8000 3.4e-17 1.2e-17 * IEEE 0,10 30000 3.2e-16 8.4e-17 * * ERROR MESSAGES: * * message condition value returned * tandg total loss x > 8.0e14 (DEC) 0.0 * x > 1.0e14 (IEEE) * tandg singularity x = 180 k + 90 MAXNUM */ /* cotdg.c * * Circular cotangent of argument in degrees * * * * SYNOPSIS: * * double x, y, cotdg(); * * y = cotdg( x ); * * * * DESCRIPTION: * * Returns the circular cotangent of the argument x in degrees. * * Range reduction is modulo pi/4. A rational function * x + x**3 P(x**2)/Q(x**2) * is employed in the basic interval [0, pi/4]. * * * ERROR MESSAGES: * * message condition value returned * cotdg total loss x > 8.0e14 (DEC) 0.0 * x > 1.0e14 (IEEE) * cotdg singularity x = 180 k MAXNUM */ /* Cephes Math Library Release 2.8: June, 2000 Copyright 1984, 1987, 2000 by Stephen L. Moshier */ #include "mconf.h" #ifdef UNK static double P[] = { -1.30936939181383777646E4, 1.15351664838587416140E6, -1.79565251976484877988E7 }; static double Q[] = { /* 1.00000000000000000000E0,*/ 1.36812963470692954678E4, -1.32089234440210967447E6, 2.50083801823357915839E7, -5.38695755929454629881E7 }; static double PI180 = 1.74532925199432957692E-2; static double lossth = 1.0e14; #endif #ifdef DEC static unsigned short P[] = { 0143514,0113306,0111171,0174674, 0045214,0147545,0027744,0167346, 0146210,0177526,0114514,0105660 }; static unsigned short Q[] = { /*0040200,0000000,0000000,0000000,*/ 0043525,0142457,0072633,0025617, 0145241,0036742,0140525,0162256, 0046276,0146176,0013526,0143573, 0146515,0077401,0162762,0150607 }; static unsigned short P1[] = {0036616,0175065,0011224,0164711}; #define PI180 *(double *)P1 static double lossth = 8.0e14; #endif #ifdef IBMPC static unsigned short P[] = { 0x3f38,0xd24f,0x92d8,0xc0c9, 0x9ddd,0xa5fc,0x99ec,0x4131, 0x9176,0xd329,0x1fea,0xc171 }; static unsigned short Q[] = { /*0x0000,0x0000,0x0000,0x3ff0,*/ 0x6572,0xeeb3,0xb8a5,0x40ca, 0xbc96,0x582a,0x27bc,0xc134, 0xd8ef,0xc2ea,0xd98f,0x4177, 0x5a31,0x3cbe,0xafe0,0xc189 }; static unsigned short P1[] = {0x9d39,0xa252,0xdf46,0x3f91}; #define PI180 *(double *)P1 static double lossth = 1.0e14; #endif #ifdef MIEEE static unsigned short P[] = { 0xc0c9,0x92d8,0xd24f,0x3f38, 0x4131,0x99ec,0xa5fc,0x9ddd, 0xc171,0x1fea,0xd329,0x9176 }; static unsigned short Q[] = { 0x40ca,0xb8a5,0xeeb3,0x6572, 0xc134,0x27bc,0x582a,0xbc96, 0x4177,0xd98f,0xc2ea,0xd8ef, 0xc189,0xafe0,0x3cbe,0x5a31 }; static unsigned short P1[] = { 0x3f91,0xdf46,0xa252,0x9d39 }; #define PI180 *(double *)P1 static double lossth = 1.0e14; #endif #ifdef ANSIPROT extern double polevl ( double, void *, int ); extern double p1evl ( double, void *, int ); extern double floor ( double ); extern double ldexp ( double, int ); static double tancot( double, int ); #else double polevl(), p1evl(), floor(), ldexp(); static double tancot(); #endif extern double MAXNUM; extern double PIO4; double tandg(x) double x; { return( tancot(x,0) ); } double cotdg(x) double x; { return( tancot(x,1) ); } static double tancot( xx, cotflg ) double xx; int cotflg; { double x, y, z, zz; int j, sign; /* make argument positive but save the sign */ if( xx < 0 ) { x = -xx; sign = -1; } else { x = xx; sign = 1; } if( x > lossth ) { mtherr( "tandg", TLOSS ); return(0.0); } /* compute x mod PIO4 */ y = floor( x/45.0 ); /* strip high bits of integer part */ z = ldexp( y, -3 ); z = floor(z); /* integer part of y/8 */ z = y - ldexp( z, 3 ); /* y - 16 * (y/16) */ /* integer and fractional part modulo one octant */ j = z; /* map zeros and singularities to origin */ if( j & 1 ) { j += 1; y += 1.0; } z = x - y * 45.0; z *= PI180; zz = z * z; if( zz > 1.0e-14 ) y = z + z * (zz * polevl( zz, P, 2 )/p1evl(zz, Q, 4)); else y = z; if( j & 2 ) { if( cotflg ) y = -y; else { if( y != 0.0 ) { y = -1.0/y; } else { mtherr( "tandg", SING ); y = MAXNUM; } } } else { if( cotflg ) { if( y != 0.0 ) y = 1.0/y; else { mtherr( "cotdg", SING ); y = MAXNUM; } } } if( sign < 0 ) y = -y; return( y ); }