/*
 * This file is part of the UCB release of Plan 9. It is subject to the license
 * terms in the LICENSE file found in the top-level directory of this
 * distribution and at http://akaros.cs.berkeley.edu/files/Plan9License. No
 * part of the UCB release of Plan 9, including this file, may be copied,
 * modified, propagated, or distributed except according to the terms contained
 * in the LICENSE file.
 */

#include <u.h>
#include <libc.h>

/*
 * jehanne_sinh(arg) returns the hyperbolic sine of its floating-
 * point argument.
 *
 * The exponential function is called for arguments
 * greater in magnitude than 0.5.
 *
 * A series is used for arguments smaller in magnitude than 0.5.
 * The coefficients are #2029 from Hart & Cheney. (20.36D)
 *
 * jehanne_cosh(arg) is computed from the exponential function for
 * all arguments.
 */

static	double	p0  = -0.6307673640497716991184787251e+6;
static	double	p1  = -0.8991272022039509355398013511e+5;
static	double	p2  = -0.2894211355989563807284660366e+4;
static	double	p3  = -0.2630563213397497062819489e+2;
static	double	q0  = -0.6307673640497716991212077277e+6;
static	double	q1   = 0.1521517378790019070696485176e+5;
static	double	q2  = -0.173678953558233699533450911e+3;

double
jehanne_sinh(double arg)
{
	double temp, argsq;
	int sign;

	sign = 0;
	if(arg < 0) {
		arg = -arg;
		sign++;
	}
	if(arg > 21) {
		temp = jehanne_exp(arg)/2;
		goto out;
	}
	if(arg > 0.5) {
		temp = (jehanne_exp(arg) - jehanne_exp(-arg))/2;
		goto out;
	}
	argsq = arg*arg;
	temp = (((p3*argsq+p2)*argsq+p1)*argsq+p0)*arg;
	temp /= (((argsq+q2)*argsq+q1)*argsq+q0);
out:
	if(sign)
		temp = -temp;
	return temp;
}

double
jehanne_cosh(double arg)
{
	if(arg < 0)
		arg = - arg;
	if(arg > 21)
		return jehanne_exp(arg)/2;
	return (jehanne_exp(arg) + jehanne_exp(-arg))/2;
}