xref: /titanic_51/usr/src/lib/libbc/inc/include/math.h (revision 1e49577a7fcde812700ded04431b49d67cc57d6d)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright (c) 1988 by Sun Microsystems, Inc.
24  */
25 
26 /*      Copyright (c) 1984 AT&T */
27 /*        All Rights Reserved   */
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 
32 /*
33  * Math library definitions for all the public functions implemented in libm.a.
34  */
35 
36 #ifndef	__math_h
37 #define	__math_h
38 
39 /*
40  * Posix (actually ansi C) section
41  */
42 #define	HUGE_VAL	(__infinity())	/* Produces IEEE Infinity. */
43 
44 
45 extern double	__infinity();
46 extern double	acos(/* double x */);
47 extern double	asin(/* double x */);
48 extern double	atan(/* double x */);
49 extern double	atan2(/* double y, double x */);
50 extern double	ceil(/* double x */);
51 extern double	cos(/* double x */);
52 extern double	cosh(/* double x */);
53 extern double	exp(/* double x */);
54 extern double	fabs(/* double x */);
55 extern double	floor(/* double x */);
56 extern double	fmod(/* double x, double y */);
57 extern double	frexp(/* double value, int *exp */);
58 extern double	ldexp(/* double value, int exp */);
59 extern double	log(/* double x */);
60 extern double	log10(/* double x */);
61 extern double	modf(/* double value, double *iptr */);
62 extern double	pow(/* double x, double y */);
63 extern double	sin(/* double x */);
64 extern double	sinh(/* double x */);
65 extern double	sqrt(/* double x */);
66 extern double	tan(/* double x */);
67 extern double	tanh(/* double x */);
68 
69 #ifndef	_POSIX_SOURCE			/* the rest of the file is !POSIX */
70 #include <floatingpoint.h>		/* Contains definitions for types and
71 					 * functions implemented in libc.a.
72 					 */
73 extern double	acosh();
74 extern double	asinh();
75 extern double	atanh();
76 extern double	cbrt();
77 extern double	copysign();
78 extern double	erf();
79 extern double	erfc();
80 extern double	expm1();
81 extern int	finite();
82 extern double	hypot();
83 extern double	j0();
84 extern double	j1();
85 extern double	jn();
86 extern double	lgamma();
87 extern double	log1p();
88 extern double	rint();
89 extern double	y0();
90 extern double	y1();
91 extern double	yn();
92 
93 /*
94  * Sun definitions.
95  */
96 
97 /*
98  * Implemented precisions for trigonometric argument reduction.
99  */
100 enum fp_pi_type {
101 	fp_pi_infinite	= 0,	/* Infinite-precision approximation to pi. */
102 	fp_pi_66	= 1,	/* 66-bit approximation to pi. */
103 	fp_pi_53	= 2	/* 53-bit approximation to pi. */
104 };
105 
106 /*
107  * Pi precision to use for trigonometric argument reduction.
108  */
109 extern enum	fp_pi_type fp_pi;
110 
111 /*
112  * Functions callable from C, intended to support IEEE arithmetic.
113  */
114 extern enum	fp_class_type fp_class();
115 extern int	ieee_flags();
116 extern int	ieee_handler();
117 extern void	ieee_retrospective();
118 extern int	ilogb();
119 extern double	infinity();
120 extern int	irint();
121 extern int	isinf();
122 extern int	isnan();
123 extern int	isnormal();
124 extern int	issubnormal();
125 extern int	iszero();
126 extern double	logb();
127 extern double	max_normal();
128 extern double	max_subnormal();
129 extern double	min_normal();
130 extern double	min_subnormal();
131 extern double	nextafter();
132 extern void	nonstandard_arithmetic();
133 extern double	quiet_nan();
134 extern double	remainder();
135 extern double	scalb();
136 extern double	scalbn();
137 extern double	signaling_nan();
138 extern int	signbit();
139 extern double	significand();
140 extern void	standard_arithmetic();
141 
142 /*
143  * Other functions for C programmers.
144  */
145 extern double	acospi();
146 extern double	aint();
147 extern double	anint();
148 extern double	annuity();
149 extern double	asinpi();
150 extern double	atan2pi();
151 extern double	atanpi();
152 extern double	compound();
153 extern double	cospi();
154 extern double	exp10();
155 extern double	exp2();
156 extern double	log2();
157 extern int	nint();
158 extern void	sincos();
159 extern void	sincospi();
160 extern double	sinpi();
161 extern double	tanpi();
162 extern int	matherr();
163 
164 
165 /*
166  *	Single-precision functions callable from Fortran, Pascal, Modula-2, etc,
167  *	take float* arguments instead of double and
168  *	return FLOATFUNCTIONTYPE results instead of double.
169  *	RETURNFLOAT is used to return a float function value without conversion
170  *	to double.
171  *	ASSIGNFLOAT is used to get the float value out of a FLOATFUNCTIONTYPE
172  *	result.
173  *	We don't want you to have to think about -fsingle2.
174  *
175  *	Some internal library functions pass float parameters as 32-bit values,
176  *	disguised as FLOATPARAMETER.  FLOATPARAMETERVALUE(x) extracts the
177  *	float value from the FLOATPARAMETER.
178  */
179 
180 /*	mc68000 returns float results in d0, same as int	*/
181 
182 #ifdef	mc68000
183 #define	FLOATFUNCTIONTYPE	int
184 #define	RETURNFLOAT(x) 		return (*(int *)(&(x)))
185 #define	ASSIGNFLOAT(x,y)	*(int *)(&x) = y
186 #endif
187 
188 /*	sparc returns float results in %f0, same as top half of double	*/
189 
190 #ifdef	sparc
191 #define	FLOATFUNCTIONTYPE	double
192 #define	RETURNFLOAT(x) 		{ union {double _d; float _f } _kluge; _kluge._f = (x); return _kluge._d; }
193 #define	ASSIGNFLOAT(x,y)	{ union {double _d; float _f } _kluge; _kluge._d = (y); x = _kluge._f; }
194 #endif
195 
196 /*	i386 returns float results on stack as extendeds, same as double */
197 
198 #ifdef	i386
199 #define	FLOATFUNCTIONTYPE	float
200 #define	RETURNFLOAT(x) 		return (x)
201 #define	ASSIGNFLOAT(x,y)	x = y
202 #endif
203 
204 /* So far everybody passes float parameters as 32 bits on stack, same as int. */
205 
206 #define	FLOATPARAMETER		int
207 #define	FLOATPARAMETERVALUE(x)	(*(float *)(&(x)))
208 
209 extern int		 ir_finite_();
210 extern enum fp_class_type ir_fp_class_();
211 extern int		 ir_ilogb_();
212 extern int		 ir_irint_();
213 extern int		 ir_isinf_();
214 extern int		 ir_isnan_();
215 extern int		 ir_isnormal_();
216 extern int		 ir_issubnormal_();
217 extern int		 ir_iszero_();
218 extern int		 ir_nint_();
219 extern int		 ir_signbit_();
220 extern void		 r_sincos_();
221 extern void		 r_sincospi_();
222 extern FLOATFUNCTIONTYPE r_acos_();
223 extern FLOATFUNCTIONTYPE r_acosh_();
224 extern FLOATFUNCTIONTYPE r_acospi_();
225 extern FLOATFUNCTIONTYPE r_aint_();
226 extern FLOATFUNCTIONTYPE r_anint_();
227 extern FLOATFUNCTIONTYPE r_annuity_();
228 extern FLOATFUNCTIONTYPE r_asin_();
229 extern FLOATFUNCTIONTYPE r_asinh_();
230 extern FLOATFUNCTIONTYPE r_asinpi_();
231 extern FLOATFUNCTIONTYPE r_atan2_();
232 extern FLOATFUNCTIONTYPE r_atan2pi_();
233 extern FLOATFUNCTIONTYPE r_atan_();
234 extern FLOATFUNCTIONTYPE r_atanh_();
235 extern FLOATFUNCTIONTYPE r_atanpi_();
236 extern FLOATFUNCTIONTYPE r_cbrt_();
237 extern FLOATFUNCTIONTYPE r_ceil_();
238 extern FLOATFUNCTIONTYPE r_compound_();
239 extern FLOATFUNCTIONTYPE r_copysign_();
240 extern FLOATFUNCTIONTYPE r_cos_();
241 extern FLOATFUNCTIONTYPE r_cosh_();
242 extern FLOATFUNCTIONTYPE r_cospi_();
243 extern FLOATFUNCTIONTYPE r_erf_();
244 extern FLOATFUNCTIONTYPE r_erfc_();
245 extern FLOATFUNCTIONTYPE r_exp10_();
246 extern FLOATFUNCTIONTYPE r_exp2_();
247 extern FLOATFUNCTIONTYPE r_exp_();
248 extern FLOATFUNCTIONTYPE r_expm1_();
249 extern FLOATFUNCTIONTYPE r_fabs_();
250 extern FLOATFUNCTIONTYPE r_floor_();
251 extern FLOATFUNCTIONTYPE r_fmod_();
252 extern FLOATFUNCTIONTYPE r_hypot_();
253 extern FLOATFUNCTIONTYPE r_infinity_();
254 extern FLOATFUNCTIONTYPE r_j0_();
255 extern FLOATFUNCTIONTYPE r_j1_();
256 extern FLOATFUNCTIONTYPE r_jn_();
257 extern FLOATFUNCTIONTYPE r_lgamma_();
258 extern FLOATFUNCTIONTYPE r_log10_();
259 extern FLOATFUNCTIONTYPE r_log1p_();
260 extern FLOATFUNCTIONTYPE r_log2_();
261 extern FLOATFUNCTIONTYPE r_log_();
262 extern FLOATFUNCTIONTYPE r_logb_();
263 extern FLOATFUNCTIONTYPE r_max_normal_();
264 extern FLOATFUNCTIONTYPE r_max_subnormal_();
265 extern FLOATFUNCTIONTYPE r_min_normal_();
266 extern FLOATFUNCTIONTYPE r_min_subnormal_();
267 extern FLOATFUNCTIONTYPE r_nextafter_();
268 extern FLOATFUNCTIONTYPE r_pow_();
269 extern FLOATFUNCTIONTYPE r_quiet_nan_();
270 extern FLOATFUNCTIONTYPE r_remainder_();
271 extern FLOATFUNCTIONTYPE r_rint_();
272 extern FLOATFUNCTIONTYPE r_scalb_();
273 extern FLOATFUNCTIONTYPE r_scalbn_();
274 extern FLOATFUNCTIONTYPE r_signaling_nan_();
275 extern FLOATFUNCTIONTYPE r_significand_();
276 extern FLOATFUNCTIONTYPE r_sin_();
277 extern FLOATFUNCTIONTYPE r_sinh_();
278 extern FLOATFUNCTIONTYPE r_sinpi_();
279 extern FLOATFUNCTIONTYPE r_sqrt_();
280 extern FLOATFUNCTIONTYPE r_tan_();
281 extern FLOATFUNCTIONTYPE r_tanh_();
282 extern FLOATFUNCTIONTYPE r_tanpi_();
283 extern FLOATFUNCTIONTYPE r_y0_();
284 extern FLOATFUNCTIONTYPE r_y1_();
285 extern FLOATFUNCTIONTYPE r_yn_();
286 
287 /* 	Constants, variables, and functions from System V */
288 
289 #define	_ABS(x) ((x) < 0 ? -(x) : (x))
290 
291 #define	HUGE		(infinity())	/* For historical compatibility. */
292 
293 #define	DOMAIN		1
294 #define	SING		2
295 #define	OVERFLOW	3
296 #define	UNDERFLOW	4
297 #define	TLOSS		5
298 #define	PLOSS		6
299 
300 struct exception {
301 	int type;
302 	char *name;
303 	double arg1;
304 	double arg2;
305 	double retval;
306 };
307 
308 /*
309  * First three have to be defined exactly as in values.h including spacing!
310  */
311 #define	M_LN2	0.69314718055994530942
312 #define	M_PI	3.14159265358979323846
313 #define	M_SQRT2	1.41421356237309504880
314 
315 #define	M_E		2.7182818284590452354
316 #define	M_LOG2E		1.4426950408889634074
317 #define	M_LOG10E	0.43429448190325182765
318 #define	M_LN10		2.30258509299404568402
319 #define	M_PI_2		1.57079632679489661923
320 #define	M_PI_4		0.78539816339744830962
321 #define	M_1_PI		0.31830988618379067154
322 #define	M_2_PI		0.63661977236758134308
323 #define	M_2_SQRTPI	1.12837916709551257390
324 #define	M_SQRT1_2	0.70710678118654752440
325 #define	_REDUCE(TYPE, X, XN, C1, C2)	{ \
326 	double x1 = (double)(TYPE)X, x2 = X - x1; \
327 	X = x1 - (XN) * (C1); X += x2; X -= (XN) * (C2); }
328 #define	_POLY1(x, c)    ((c)[0] * (x) + (c)[1])
329 #define	_POLY2(x, c)    (_POLY1((x), (c)) * (x) + (c)[2])
330 #define	_POLY3(x, c)    (_POLY2((x), (c)) * (x) + (c)[3])
331 #define	_POLY4(x, c)    (_POLY3((x), (c)) * (x) + (c)[4])
332 #define	_POLY5(x, c)    (_POLY4((x), (c)) * (x) + (c)[5])
333 #define	_POLY6(x, c)    (_POLY5((x), (c)) * (x) + (c)[6])
334 #define	_POLY7(x, c)    (_POLY6((x), (c)) * (x) + (c)[7])
335 #define	_POLY8(x, c)    (_POLY7((x), (c)) * (x) + (c)[8])
336 #define	_POLY9(x, c)    (_POLY8((x), (c)) * (x) + (c)[9])
337 
338 extern int	signgam;
339 /*
340  *	Deprecated functions for compatibility with past.
341  *	Changes planned for future.
342  */
343 
344 extern double cabs();	/* Use double hypot(x,y)
345 			 * Traditional cabs usage is confused -
346 			 * is its argument two doubles or one struct?
347 			 */
348 extern double drem();	/* Use double remainder(x,y)
349 			 * drem will disappear in a future release.
350 			 */
351 extern double gamma();	/* Use double lgamma(x)
352 			 * to compute log of gamma function.
353 			 * Name gamma is reserved for true gamma function
354 			 * to appear in a future release.
355 			 */
356 #endif	/* !_POSIX_SOURCE */
357 #endif	/* !__math_h */
358