xref: /freebsd/lib/msun/tests/invctrig_test.c (revision a35f04fba2ebb8f86d4cbdc710c89a094572b08e)
1 /*-
2  * Copyright (c) 2008-2013 David Schultz <das@FreeBSD.org>
3  * All rights reserved.
4  *
5  * Redistribution and use in source and binary forms, with or without
6  * modification, are permitted provided that the following conditions
7  * are met:
8  * 1. Redistributions of source code must retain the above copyright
9  *    notice, this list of conditions and the following disclaimer.
10  * 2. Redistributions in binary form must reproduce the above copyright
11  *    notice, this list of conditions and the following disclaimer in the
12  *    documentation and/or other materials provided with the distribution.
13  *
14  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
15  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
16  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
17  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
18  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
20  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
21  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
22  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
23  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
24  * SUCH DAMAGE.
25  */
26 
27 /*
28  * Tests for casin[h](), cacos[h](), and catan[h]().
29  */
30 
31 #include <sys/cdefs.h>
32 __FBSDID("$FreeBSD$");
33 
34 #include <sys/param.h>
35 #include <assert.h>
36 #include <complex.h>
37 #include <fenv.h>
38 #include <float.h>
39 #include <math.h>
40 #include <stdio.h>
41 
42 #include "test-utils.h"
43 
44 #pragma	STDC FENV_ACCESS	ON
45 #pragma	STDC CX_LIMITED_RANGE	OFF
46 
47 /*
48  * Test that a function returns the correct value and sets the
49  * exception flags correctly. The exceptmask specifies which
50  * exceptions we should check. We need to be lenient for several
51  * reasons, but mainly because on some architectures it's impossible
52  * to raise FE_OVERFLOW without raising FE_INEXACT.
53  *
54  * These are macros instead of functions so that assert provides more
55  * meaningful error messages.
56  *
57  * XXX The volatile here is to avoid gcc's bogus constant folding and work
58  *     around the lack of support for the FENV_ACCESS pragma.
59  */
60 #define	test_p(func, z, result, exceptmask, excepts, checksign)	do {	\
61 	volatile long double complex _d = z;				\
62 	debug("  testing %s(%Lg + %Lg I) == %Lg + %Lg I\n", #func,	\
63 	    creall(_d), cimagl(_d), creall(result), cimagl(result));	\
64 	assert(feclearexcept(FE_ALL_EXCEPT) == 0);			\
65 	assert(cfpequal_cs((func)(_d), (result), (checksign)));		\
66 	assert(((void)(func), fetestexcept(exceptmask) == (excepts)));	\
67 } while (0)
68 
69 /*
70  * Test within a given tolerance.  The tolerance indicates relative error
71  * in ulps.
72  */
73 #define	test_p_tol(func, z, result, tol)			do {	\
74 	volatile long double complex _d = z;				\
75 	debug("  testing %s(%Lg + %Lg I) ~= %Lg + %Lg I\n", #func,	\
76 	    creall(_d), cimagl(_d), creall(result), cimagl(result));	\
77 	assert(cfpequal_tol((func)(_d), (result), (tol), CS_BOTH));	\
78 } while (0)
79 
80 /* These wrappers apply the identities f(conj(z)) = conj(f(z)). */
81 #define	test(func, z, result, exceptmask, excepts, checksign)	do {	\
82 	test_p(func, z, result, exceptmask, excepts, checksign);	\
83 	test_p(func, conjl(z), conjl(result), exceptmask, excepts, checksign); \
84 } while (0)
85 #define	test_tol(func, z, result, tol)				do {	\
86 	test_p_tol(func, z, result, tol);				\
87 	test_p_tol(func, conjl(z), conjl(result), tol);			\
88 } while (0)
89 
90 /* Test the given function in all precisions. */
91 #define	testall(func, x, result, exceptmask, excepts, checksign) do {	\
92 	test(func, x, result, exceptmask, excepts, checksign);		\
93 	test(func##f, x, result, exceptmask, excepts, checksign);	\
94 } while (0)
95 #define	testall_odd(func, x, result, exceptmask, excepts, checksign) do { \
96 	testall(func, x, result, exceptmask, excepts, checksign);	\
97 	testall(func, -(x), -result, exceptmask, excepts, checksign);	\
98 } while (0)
99 #define	testall_even(func, x, result, exceptmask, excepts, checksign) do { \
100 	testall(func, x, result, exceptmask, excepts, checksign);	\
101 	testall(func, -(x), result, exceptmask, excepts, checksign);	\
102 } while (0)
103 
104 /*
105  * Test the given function in all precisions, within a given tolerance.
106  * The tolerance is specified in ulps.
107  */
108 #define	testall_tol(func, x, result, tol)	       		   do { \
109 	test_tol(func, x, result, (tol) * DBL_ULP());			\
110 	test_tol(func##f, x, result, (tol) * FLT_ULP());		\
111 } while (0)
112 #define	testall_odd_tol(func, x, result, tol)	       		   do { \
113 	testall_tol(func, x, result, tol);				\
114 	testall_tol(func, -(x), -result, tol);				\
115 } while (0)
116 #define	testall_even_tol(func, x, result, tol)	       		   do { \
117 	testall_tol(func, x, result, tol);				\
118 	testall_tol(func, -(x), result, tol);				\
119 } while (0)
120 
121 static const long double
122 pi = 3.14159265358979323846264338327950280L,
123 c3pi = 9.42477796076937971538793014983850839L;
124 
125 
126 /* Tests for 0 */
127 static void
128 test_zero(void)
129 {
130 	long double complex zero = CMPLXL(0.0, 0.0);
131 
132 	testall_tol(cacosh, zero, CMPLXL(0.0, pi / 2), 1);
133 	testall_tol(cacosh, -zero, CMPLXL(0.0, -pi / 2), 1);
134 	testall_tol(cacos, zero, CMPLXL(pi / 2, -0.0), 1);
135 	testall_tol(cacos, -zero, CMPLXL(pi / 2, 0.0), 1);
136 
137 	testall_odd(casinh, zero, zero, ALL_STD_EXCEPT, 0, CS_BOTH);
138 	testall_odd(casin, zero, zero, ALL_STD_EXCEPT, 0, CS_BOTH);
139 
140 	testall_odd(catanh, zero, zero, ALL_STD_EXCEPT, 0, CS_BOTH);
141 	testall_odd(catan, zero, zero, ALL_STD_EXCEPT, 0, CS_BOTH);
142 }
143 
144 /*
145  * Tests for NaN inputs.
146  */
147 static void
148 test_nan(void)
149 {
150 	long double complex nan_nan = CMPLXL(NAN, NAN);
151 	long double complex z;
152 
153 	/*
154 	 * IN		CACOSH	    CACOS	CASINH	    CATANH
155 	 * NaN,NaN	NaN,NaN	    NaN,NaN	NaN,NaN	    NaN,NaN
156 	 * finite,NaN	NaN,NaN*    NaN,NaN*	NaN,NaN*    NaN,NaN*
157 	 * NaN,finite   NaN,NaN*    NaN,NaN*	NaN,NaN*    NaN,NaN*
158 	 * NaN,Inf	Inf,NaN     NaN,-Inf	?Inf,NaN    ?0,pi/2
159 	 * +-Inf,NaN	Inf,NaN     NaN,?Inf	+-Inf,NaN   +-0,NaN
160 	 * +-0,NaN	NaN,NaN*    pi/2,NaN	NaN,NaN*    +-0,NaN
161 	 * NaN,0	NaN,NaN*    NaN,NaN*	NaN,0	    NaN,NaN*
162 	 *
163 	 *  * = raise invalid
164 	 */
165 	z = nan_nan;
166 	testall(cacosh, z, nan_nan, ALL_STD_EXCEPT, 0, 0);
167 	testall(cacos, z, nan_nan, ALL_STD_EXCEPT, 0, 0);
168 	testall(casinh, z, nan_nan, ALL_STD_EXCEPT, 0, 0);
169 	testall(casin, z, nan_nan, ALL_STD_EXCEPT, 0, 0);
170 	testall(catanh, z, nan_nan, ALL_STD_EXCEPT, 0, 0);
171 	testall(catan, z, nan_nan, ALL_STD_EXCEPT, 0, 0);
172 
173 	z = CMPLXL(0.5, NAN);
174 	testall(cacosh, z, nan_nan, OPT_INVALID, 0, 0);
175 	testall(cacos, z, nan_nan, OPT_INVALID, 0, 0);
176 	testall(casinh, z, nan_nan, OPT_INVALID, 0, 0);
177 	testall(casin, z, nan_nan, OPT_INVALID, 0, 0);
178 	testall(catanh, z, nan_nan, OPT_INVALID, 0, 0);
179 	testall(catan, z, nan_nan, OPT_INVALID, 0, 0);
180 
181 	z = CMPLXL(NAN, 0.5);
182 	testall(cacosh, z, nan_nan, OPT_INVALID, 0, 0);
183 	testall(cacos, z, nan_nan, OPT_INVALID, 0, 0);
184 	testall(casinh, z, nan_nan, OPT_INVALID, 0, 0);
185 	testall(casin, z, nan_nan, OPT_INVALID, 0, 0);
186 	testall(catanh, z, nan_nan, OPT_INVALID, 0, 0);
187 	testall(catan, z, nan_nan, OPT_INVALID, 0, 0);
188 
189 	z = CMPLXL(NAN, INFINITY);
190 	testall(cacosh, z, CMPLXL(INFINITY, NAN), ALL_STD_EXCEPT, 0, CS_REAL);
191 	testall(cacosh, -z, CMPLXL(INFINITY, NAN), ALL_STD_EXCEPT, 0, CS_REAL);
192 	testall(cacos, z, CMPLXL(NAN, -INFINITY), ALL_STD_EXCEPT, 0, CS_IMAG);
193 	testall(casinh, z, CMPLXL(INFINITY, NAN), ALL_STD_EXCEPT, 0, 0);
194 	testall(casin, z, CMPLXL(NAN, INFINITY), ALL_STD_EXCEPT, 0, CS_IMAG);
195 	testall_tol(catanh, z, CMPLXL(0.0, pi / 2), 1);
196 	testall(catan, z, CMPLXL(NAN, 0.0), ALL_STD_EXCEPT, 0, CS_IMAG);
197 
198 	z = CMPLXL(INFINITY, NAN);
199 	testall_even(cacosh, z, CMPLXL(INFINITY, NAN), ALL_STD_EXCEPT, 0,
200 		     CS_REAL);
201 	testall_even(cacos, z, CMPLXL(NAN, INFINITY), ALL_STD_EXCEPT, 0, 0);
202 	testall_odd(casinh, z, CMPLXL(INFINITY, NAN), ALL_STD_EXCEPT, 0,
203 		    CS_REAL);
204 	testall_odd(casin, z, CMPLXL(NAN, INFINITY), ALL_STD_EXCEPT, 0, 0);
205 	testall_odd(catanh, z, CMPLXL(0.0, NAN), ALL_STD_EXCEPT, 0, CS_REAL);
206 	testall_odd_tol(catan, z, CMPLXL(pi / 2, 0.0), 1);
207 
208 	z = CMPLXL(0.0, NAN);
209         /* XXX We allow a spurious inexact exception here. */
210 	testall_even(cacosh, z, nan_nan, OPT_INVALID & ~FE_INEXACT, 0, 0);
211 	testall_even_tol(cacos, z, CMPLXL(pi / 2, NAN), 1);
212 	testall_odd(casinh, z, nan_nan, OPT_INVALID, 0, 0);
213 	testall_odd(casin, z, CMPLXL(0.0, NAN), ALL_STD_EXCEPT, 0, CS_REAL);
214 	testall_odd(catanh, z, CMPLXL(0.0, NAN), OPT_INVALID, 0, CS_REAL);
215 	testall_odd(catan, z, nan_nan, OPT_INVALID, 0, 0);
216 
217 	z = CMPLXL(NAN, 0.0);
218 	testall(cacosh, z, nan_nan, OPT_INVALID, 0, 0);
219 	testall(cacos, z, nan_nan, OPT_INVALID, 0, 0);
220 	testall(casinh, z, CMPLXL(NAN, 0), ALL_STD_EXCEPT, 0, CS_IMAG);
221 	testall(casin, z, nan_nan, OPT_INVALID, 0, 0);
222 	testall(catanh, z, nan_nan, OPT_INVALID, 0, CS_IMAG);
223 	testall(catan, z, CMPLXL(NAN, 0.0), ALL_STD_EXCEPT, 0, 0);
224 }
225 
226 static void
227 test_inf(void)
228 {
229 	long double complex z;
230 
231 	/*
232 	 * IN		CACOSH	    CACOS	CASINH	    CATANH
233 	 * Inf,Inf	Inf,pi/4    pi/4,-Inf	Inf,pi/4    0,pi/2
234 	 * -Inf,Inf	Inf,3pi/4   3pi/4,-Inf	---	    ---
235 	 * Inf,finite	Inf,0	    0,-Inf	Inf,0	    0,pi/2
236 	 * -Inf,finite	Inf,pi      pi,-Inf	---	    ---
237 	 * finite,Inf	Inf,pi/2    pi/2,-Inf	Inf,pi/2    0,pi/2
238 	 */
239 	z = CMPLXL(INFINITY, INFINITY);
240 	testall_tol(cacosh, z, CMPLXL(INFINITY, pi / 4), 1);
241 	testall_tol(cacosh, -z, CMPLXL(INFINITY, -c3pi / 4), 1);
242 	testall_tol(cacos, z, CMPLXL(pi / 4, -INFINITY), 1);
243 	testall_tol(cacos, -z, CMPLXL(c3pi / 4, INFINITY), 1);
244 	testall_odd_tol(casinh, z, CMPLXL(INFINITY, pi / 4), 1);
245 	testall_odd_tol(casin, z, CMPLXL(pi / 4, INFINITY), 1);
246 	testall_odd_tol(catanh, z, CMPLXL(0, pi / 2), 1);
247 	testall_odd_tol(catan, z, CMPLXL(pi / 2, 0), 1);
248 
249 	z = CMPLXL(INFINITY, 0.5);
250 	/* XXX We allow a spurious inexact exception here. */
251 	testall(cacosh, z, CMPLXL(INFINITY, 0), OPT_INEXACT, 0, CS_BOTH);
252 	testall_tol(cacosh, -z, CMPLXL(INFINITY, -pi), 1);
253 	testall(cacos, z, CMPLXL(0, -INFINITY), OPT_INEXACT, 0, CS_BOTH);
254 	testall_tol(cacos, -z, CMPLXL(pi, INFINITY), 1);
255 	testall_odd(casinh, z, CMPLXL(INFINITY, 0), OPT_INEXACT, 0, CS_BOTH);
256 	testall_odd_tol(casin, z, CMPLXL(pi / 2, INFINITY), 1);
257 	testall_odd_tol(catanh, z, CMPLXL(0, pi / 2), 1);
258 	testall_odd_tol(catan, z, CMPLXL(pi / 2, 0), 1);
259 
260 	z = CMPLXL(0.5, INFINITY);
261 	testall_tol(cacosh, z, CMPLXL(INFINITY, pi / 2), 1);
262 	testall_tol(cacosh, -z, CMPLXL(INFINITY, -pi / 2), 1);
263 	testall_tol(cacos, z, CMPLXL(pi / 2, -INFINITY), 1);
264 	testall_tol(cacos, -z, CMPLXL(pi / 2, INFINITY), 1);
265 	testall_odd_tol(casinh, z, CMPLXL(INFINITY, pi / 2), 1);
266 	/* XXX We allow a spurious inexact exception here. */
267 	testall_odd(casin, z, CMPLXL(0.0, INFINITY), OPT_INEXACT, 0, CS_BOTH);
268 	testall_odd_tol(catanh, z, CMPLXL(0, pi / 2), 1);
269 	testall_odd_tol(catan, z, CMPLXL(pi / 2, 0), 1);
270 }
271 
272 /* Tests along the real and imaginary axes. */
273 static void
274 test_axes(void)
275 {
276 	static const long double nums[] = {
277 		-2, -1, -0.5, 0.5, 1, 2
278 	};
279 	long double complex z;
280 	unsigned i;
281 
282 	for (i = 0; i < nitems(nums); i++) {
283 		/* Real axis */
284 		z = CMPLXL(nums[i], 0.0);
285 		if (fabsl(nums[i]) <= 1) {
286 			testall_tol(cacosh, z, CMPLXL(0.0, acos(nums[i])), 1);
287 			testall_tol(cacos, z, CMPLXL(acosl(nums[i]), -0.0), 1);
288 			testall_tol(casin, z, CMPLXL(asinl(nums[i]), 0.0), 1);
289 			testall_tol(catanh, z, CMPLXL(atanh(nums[i]), 0.0), 1);
290 		} else {
291 			testall_tol(cacosh, z,
292 				    CMPLXL(acosh(fabsl(nums[i])),
293 					   (nums[i] < 0) ? pi : 0), 1);
294 			testall_tol(cacos, z,
295 				    CMPLXL((nums[i] < 0) ? pi : 0,
296 					   -acosh(fabsl(nums[i]))), 1);
297 			testall_tol(casin, z,
298 				    CMPLXL(copysign(pi / 2, nums[i]),
299 					   acosh(fabsl(nums[i]))), 1);
300 			testall_tol(catanh, z,
301 				    CMPLXL(atanh(1 / nums[i]), pi / 2), 1);
302 		}
303 		testall_tol(casinh, z, CMPLXL(asinh(nums[i]), 0.0), 1);
304 		testall_tol(catan, z, CMPLXL(atan(nums[i]), 0), 1);
305 
306 		/* TODO: Test the imaginary axis. */
307 	}
308 }
309 
310 static void
311 test_small(void)
312 {
313 	/*
314 	 * z =  0.75 + i 0.25
315 	 *     acos(z) = Pi/4 - i ln(2)/2
316 	 *     asin(z) = Pi/4 + i ln(2)/2
317 	 *     atan(z) = atan(4)/2 + i ln(17/9)/4
318 	 */
319 	complex long double z;
320 	complex long double acos_z;
321 	complex long double asin_z;
322 	complex long double atan_z;
323 
324 	z = CMPLXL(0.75L, 0.25L);
325 	acos_z = CMPLXL(pi / 4, -0.34657359027997265470861606072908828L);
326 	asin_z = CMPLXL(pi / 4, 0.34657359027997265470861606072908828L);
327 	atan_z = CMPLXL(0.66290883183401623252961960521423782L,
328 			 0.15899719167999917436476103600701878L);
329 
330 	testall_tol(cacos, z, acos_z, 2);
331 	testall_odd_tol(casin, z, asin_z, 2);
332 	testall_odd_tol(catan, z, atan_z, 2);
333 }
334 
335 /* Test inputs that might cause overflow in a sloppy implementation. */
336 static void
337 test_large(void)
338 {
339 
340 	/* TODO: Write these tests */
341 }
342 
343 int
344 main(void)
345 {
346 
347 	printf("1..6\n");
348 
349 	test_zero();
350 	printf("ok 1 - invctrig zero\n");
351 
352 	test_nan();
353 	printf("ok 2 - invctrig nan\n");
354 
355 	test_inf();
356 	printf("ok 3 - invctrig inf\n");
357 
358 	test_axes();
359 	printf("ok 4 - invctrig axes\n");
360 
361 	test_small();
362 	printf("ok 5 - invctrig small\n");
363 
364 	test_large();
365 	printf("ok 6 - invctrig large\n");
366 
367 	return (0);
368 }
369