/************************************************************************ * * * N O T I C E * * * * Copyright Abandoned, 1987, Fred Fish * * * * This previously copyrighted work has been placed into the * * public domain by the author (Fred Fish) and may be freely used * * for any purpose, private or commercial. I would appreciate * * it, as a courtesy, if this notice is left in all copies and * * derivative works. Thank you, and enjoy... * * * * The author makes no warranty of any kind with respect to this * * product and explicitly disclaims any implied warranties of * * merchantability or fitness for any particular purpose. * * * ************************************************************************ */ /* * FUNCTION * * tanh double precision hyperbolic tangent * * KEY WORDS * * tanh * machine independent routines * math libraries * * DESCRIPTION * * Returns double precision hyperbolic tangent of double precision * floating point number. * * USAGE * * double tanh (x) * double x; * * REFERENCES * * Fortran IV plus user's guide, Digital Equipment Corp. pp B-5 * * RESTRICTIONS * * For precision information refer to documentation of the * floating point library routines called. * * PROGRAMMER * * Fred Fish * * INTERNALS * * Computes hyperbolic tangent from: * * tanh(x) = 1.0 for x > TANH_MAXARG * = -1.0 for x < -TANH_MAXARG * = sinh(x) / cosh(x) otherwise * */ #if !defined (__M68881__) && !defined (sfp004) #include #include #include "pml.h" static char funcname[] = "tanh"; struct exception xcpt; double tanh (x) double x; { register int positive; if (x > TANH_MAXARG || x < -TANH_MAXARG) { if (x > 0.0) { positive = 1; } else { positive = 0; } xcpt.type = PLOSS; xcpt.name = funcname; xcpt.arg1 = x; if (!matherr (&xcpt)) { fprintf (stderr, "%s: PLOSS error\n", funcname); errno = ERANGE; if (positive) { xcpt.retval = 1.0; } else { xcpt.retval = -1.0; } } } else { xcpt.retval = sinh (x) / cosh (x); } return (xcpt.retval); } #endif /* __M68881__, sfp004 */ #ifdef sfp004 __asm(" comm = -6 resp = -16 zahl = 0 "); /* end asm */ #endif sfp004 #if defined (__M68881__) || defined (sfp004) __asm(".text; .even"); # ifdef ERROR_CHECK __asm(" _Overflow: .ascii \"OVERFLOW\\0\" _Domain: .ascii \"DOMAIN\\0\" _Error_String: .ascii \"tanh: %s error\\n\\0\" .even | pml compatible tanhgent | m.ritzert 7.12.1991 | ritzert@dfg.dbp.de | | /* NAN = {7fffffff,ffffffff} */ | /* +Inf = {7ff00000,00000000} */ | /* -Inf = {fff00000,00000000} */ | /* MAX_D= {7fee42d1,30773b76} */ | /* MIN_D= {ffee42d1,30773b76} */ .even double_max: .long 0x7fee42d1 .long 0x30273b76 double_min: .long 0xffee42d1 .long 0x30273b76 NaN: .long 0x7fffffff .long 0xffffffff p_Inf: .long 0x7ff00000 .long 0x00000000 m_Inf: .long 0xfff00000 .long 0x00000000 "); #endif ERROR_CHECK __asm(".even .globl _tanh _tanh: "); /* end asm */ #endif /* __M68881__ || sfp004 */ #ifdef __M68881__ __asm(" ftanhd a7@(4), fp0 | tanh fmoved fp0,a7@- | push result moveml a7@+,d0-d1 | return_value "); /* end asm */ #endif __M68881__ #ifdef sfp004 __asm(" lea 0xfffa50,a0 movew #0x5409,a0@(comm) | specify function cmpiw #0x8900,a0@(resp) | check movel a7@(4),a0@ | load arg_hi movel a7@(8),a0@ | load arg_low movew #0x7400,a0@(comm) | result to d0 .long 0x0c688900, 0xfff067f8 | wait movel a0@,d0 movel a0@,d1 "); /* end asm */ #endif sfp004 #if defined (__M68881__) || defined (sfp004) # ifdef ERROR_CHECK __asm(" lea double_max,a0 | swap d0 | exponent into lower word cmpw a0@(16),d0 | == NaN ? beq error_nan | swap d0 | result ok, rts | restore d0 "); #ifndef __MSHORT__ __asm(" error_nan: moveml a0@(24),d0-d1 | result = +inf moveml d0-d1,a7@- movel #62,_errno | NAN => errno = EDOM pea _Domain | for printf "); #else __MSHORT__ __asm(" error_nan: moveml a0@(24),d0-d1 | result = +inf moveml d0-d1,a7@- movew #62,_errno | NAN => errno = EDOM pea _Domain | for printf "); #endif __MSHORT__ __asm(" error_exit: pea _Error_String | pea __iob+52 | jbsr _fprintf | addl #12,a7 | moveml a7@+,d0-d1 rts "); # else ERROR_CHECK __asm("rts"); # endif ERROR_CHECK #endif /* __M68881__ || sfp004 */