1*8a7d0e8cSEnji Cooper /*- 2*8a7d0e8cSEnji Cooper * Copyright (c) 2008 David Schultz <das@FreeBSD.org> 3*8a7d0e8cSEnji Cooper * All rights reserved. 4*8a7d0e8cSEnji Cooper * 5*8a7d0e8cSEnji Cooper * Redistribution and use in source and binary forms, with or without 6*8a7d0e8cSEnji Cooper * modification, are permitted provided that the following conditions 7*8a7d0e8cSEnji Cooper * are met: 8*8a7d0e8cSEnji Cooper * 1. Redistributions of source code must retain the above copyright 9*8a7d0e8cSEnji Cooper * notice, this list of conditions and the following disclaimer. 10*8a7d0e8cSEnji Cooper * 2. Redistributions in binary form must reproduce the above copyright 11*8a7d0e8cSEnji Cooper * notice, this list of conditions and the following disclaimer in the 12*8a7d0e8cSEnji Cooper * documentation and/or other materials provided with the distribution. 13*8a7d0e8cSEnji Cooper * 14*8a7d0e8cSEnji Cooper * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15*8a7d0e8cSEnji Cooper * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16*8a7d0e8cSEnji Cooper * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17*8a7d0e8cSEnji Cooper * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18*8a7d0e8cSEnji Cooper * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19*8a7d0e8cSEnji Cooper * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20*8a7d0e8cSEnji Cooper * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21*8a7d0e8cSEnji Cooper * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22*8a7d0e8cSEnji Cooper * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23*8a7d0e8cSEnji Cooper * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24*8a7d0e8cSEnji Cooper * SUCH DAMAGE. 25*8a7d0e8cSEnji Cooper */ 26*8a7d0e8cSEnji Cooper 27*8a7d0e8cSEnji Cooper /* 28*8a7d0e8cSEnji Cooper * Tests for corner cases in the inverse trigonometric functions. Some 29*8a7d0e8cSEnji Cooper * accuracy tests are included as well, but these are very basic 30*8a7d0e8cSEnji Cooper * sanity checks, not intended to be comprehensive. 31*8a7d0e8cSEnji Cooper */ 32*8a7d0e8cSEnji Cooper 33*8a7d0e8cSEnji Cooper #include <sys/cdefs.h> 34*8a7d0e8cSEnji Cooper __FBSDID("$FreeBSD$"); 35*8a7d0e8cSEnji Cooper 36*8a7d0e8cSEnji Cooper #include <assert.h> 37*8a7d0e8cSEnji Cooper #include <fenv.h> 38*8a7d0e8cSEnji Cooper #include <float.h> 39*8a7d0e8cSEnji Cooper #include <math.h> 40*8a7d0e8cSEnji Cooper #include <stdio.h> 41*8a7d0e8cSEnji Cooper 42*8a7d0e8cSEnji Cooper #include "test-utils.h" 43*8a7d0e8cSEnji Cooper 44*8a7d0e8cSEnji Cooper #pragma STDC FENV_ACCESS ON 45*8a7d0e8cSEnji Cooper 46*8a7d0e8cSEnji Cooper /* 47*8a7d0e8cSEnji Cooper * Test that a function returns the correct value and sets the 48*8a7d0e8cSEnji Cooper * exception flags correctly. A tolerance specifying the maximum 49*8a7d0e8cSEnji Cooper * relative error allowed may be specified. For the 'testall' 50*8a7d0e8cSEnji Cooper * functions, the tolerance is specified in ulps. 51*8a7d0e8cSEnji Cooper * 52*8a7d0e8cSEnji Cooper * These are macros instead of functions so that assert provides more 53*8a7d0e8cSEnji Cooper * meaningful error messages. 54*8a7d0e8cSEnji Cooper */ 55*8a7d0e8cSEnji Cooper #define test_tol(func, x, result, tol, excepts) do { \ 56*8a7d0e8cSEnji Cooper volatile long double _in = (x), _out = (result); \ 57*8a7d0e8cSEnji Cooper assert(feclearexcept(FE_ALL_EXCEPT) == 0); \ 58*8a7d0e8cSEnji Cooper assert(fpequal_tol(func(_in), _out, (tol), CS_BOTH)); \ 59*8a7d0e8cSEnji Cooper assert(((void)func, fetestexcept(ALL_STD_EXCEPT) == (excepts))); \ 60*8a7d0e8cSEnji Cooper } while (0) 61*8a7d0e8cSEnji Cooper #define test(func, x, result, excepts) \ 62*8a7d0e8cSEnji Cooper test_tol(func, (x), (result), 0, (excepts)) 63*8a7d0e8cSEnji Cooper 64*8a7d0e8cSEnji Cooper #define _testall_tol(prefix, x, result, tol, excepts) do { \ 65*8a7d0e8cSEnji Cooper test_tol(prefix, (double)(x), (double)(result), \ 66*8a7d0e8cSEnji Cooper (tol) * ldexp(1.0, 1 - DBL_MANT_DIG), (excepts)); \ 67*8a7d0e8cSEnji Cooper test_tol(prefix##f, (float)(x), (float)(result), \ 68*8a7d0e8cSEnji Cooper (tol) * ldexpf(1.0, 1 - FLT_MANT_DIG), (excepts)); \ 69*8a7d0e8cSEnji Cooper } while (0) 70*8a7d0e8cSEnji Cooper 71*8a7d0e8cSEnji Cooper #if LDBL_PREC == 53 72*8a7d0e8cSEnji Cooper #define testall_tol _testall_tol 73*8a7d0e8cSEnji Cooper #else 74*8a7d0e8cSEnji Cooper #define testall_tol(prefix, x, result, tol, excepts) do { \ 75*8a7d0e8cSEnji Cooper _testall_tol(prefix, x, result, tol, excepts); \ 76*8a7d0e8cSEnji Cooper test_tol(prefix##l, (x), (result), \ 77*8a7d0e8cSEnji Cooper (tol) * ldexpl(1.0, 1 - LDBL_MANT_DIG), (excepts)); \ 78*8a7d0e8cSEnji Cooper } while (0) 79*8a7d0e8cSEnji Cooper #endif 80*8a7d0e8cSEnji Cooper 81*8a7d0e8cSEnji Cooper #define testall(prefix, x, result, excepts) \ 82*8a7d0e8cSEnji Cooper testall_tol(prefix, (x), (result), 0, (excepts)) 83*8a7d0e8cSEnji Cooper 84*8a7d0e8cSEnji Cooper #define test2_tol(func, y, x, result, tol, excepts) do { \ 85*8a7d0e8cSEnji Cooper volatile long double _iny = (y), _inx = (x), _out = (result); \ 86*8a7d0e8cSEnji Cooper assert(feclearexcept(FE_ALL_EXCEPT) == 0); \ 87*8a7d0e8cSEnji Cooper assert(fpequal_tol(func(_iny, _inx), _out, (tol), CS_BOTH)); \ 88*8a7d0e8cSEnji Cooper assert(((void)func, fetestexcept(ALL_STD_EXCEPT) == (excepts))); \ 89*8a7d0e8cSEnji Cooper } while (0) 90*8a7d0e8cSEnji Cooper #define test2(func, y, x, result, excepts) \ 91*8a7d0e8cSEnji Cooper test2_tol(func, (y), (x), (result), 0, (excepts)) 92*8a7d0e8cSEnji Cooper 93*8a7d0e8cSEnji Cooper #define _testall2_tol(prefix, y, x, result, tol, excepts) do { \ 94*8a7d0e8cSEnji Cooper test2_tol(prefix, (double)(y), (double)(x), (double)(result), \ 95*8a7d0e8cSEnji Cooper (tol) * ldexp(1.0, 1 - DBL_MANT_DIG), (excepts)); \ 96*8a7d0e8cSEnji Cooper test2_tol(prefix##f, (float)(y), (float)(x), (float)(result), \ 97*8a7d0e8cSEnji Cooper (tol) * ldexpf(1.0, 1 - FLT_MANT_DIG), (excepts)); \ 98*8a7d0e8cSEnji Cooper } while (0) 99*8a7d0e8cSEnji Cooper 100*8a7d0e8cSEnji Cooper #if LDBL_PREC == 53 101*8a7d0e8cSEnji Cooper #define testall2_tol _testall2_tol 102*8a7d0e8cSEnji Cooper #else 103*8a7d0e8cSEnji Cooper #define testall2_tol(prefix, y, x, result, tol, excepts) do { \ 104*8a7d0e8cSEnji Cooper _testall2_tol(prefix, y, x, result, tol, excepts); \ 105*8a7d0e8cSEnji Cooper test2_tol(prefix##l, (y), (x), (result), \ 106*8a7d0e8cSEnji Cooper (tol) * ldexpl(1.0, 1 - LDBL_MANT_DIG), (excepts)); \ 107*8a7d0e8cSEnji Cooper } while (0) 108*8a7d0e8cSEnji Cooper #endif 109*8a7d0e8cSEnji Cooper 110*8a7d0e8cSEnji Cooper #define testall2(prefix, y, x, result, excepts) \ 111*8a7d0e8cSEnji Cooper testall2_tol(prefix, (y), (x), (result), 0, (excepts)) 112*8a7d0e8cSEnji Cooper 113*8a7d0e8cSEnji Cooper long double 114*8a7d0e8cSEnji Cooper pi = 3.14159265358979323846264338327950280e+00L, 115*8a7d0e8cSEnji Cooper pio3 = 1.04719755119659774615421446109316766e+00L, 116*8a7d0e8cSEnji Cooper c3pi = 9.42477796076937971538793014983850839e+00L, 117*8a7d0e8cSEnji Cooper c5pi = 1.57079632679489661923132169163975140e+01L, 118*8a7d0e8cSEnji Cooper c7pi = 2.19911485751285526692385036829565196e+01L, 119*8a7d0e8cSEnji Cooper c5pio3 = 5.23598775598298873077107230546583851e+00L, 120*8a7d0e8cSEnji Cooper sqrt2m1 = 4.14213562373095048801688724209698081e-01L; 121*8a7d0e8cSEnji Cooper 122*8a7d0e8cSEnji Cooper 123*8a7d0e8cSEnji Cooper /* 124*8a7d0e8cSEnji Cooper * Test special case inputs in asin(), acos() and atan(): signed 125*8a7d0e8cSEnji Cooper * zeroes, infinities, and NaNs. 126*8a7d0e8cSEnji Cooper */ 127*8a7d0e8cSEnji Cooper static void 128*8a7d0e8cSEnji Cooper test_special(void) 129*8a7d0e8cSEnji Cooper { 130*8a7d0e8cSEnji Cooper 131*8a7d0e8cSEnji Cooper testall(asin, 0.0, 0.0, 0); 132*8a7d0e8cSEnji Cooper testall(acos, 0.0, pi / 2, FE_INEXACT); 133*8a7d0e8cSEnji Cooper testall(atan, 0.0, 0.0, 0); 134*8a7d0e8cSEnji Cooper testall(asin, -0.0, -0.0, 0); 135*8a7d0e8cSEnji Cooper testall(acos, -0.0, pi / 2, FE_INEXACT); 136*8a7d0e8cSEnji Cooper testall(atan, -0.0, -0.0, 0); 137*8a7d0e8cSEnji Cooper 138*8a7d0e8cSEnji Cooper testall(asin, INFINITY, NAN, FE_INVALID); 139*8a7d0e8cSEnji Cooper testall(acos, INFINITY, NAN, FE_INVALID); 140*8a7d0e8cSEnji Cooper testall(atan, INFINITY, pi / 2, FE_INEXACT); 141*8a7d0e8cSEnji Cooper testall(asin, -INFINITY, NAN, FE_INVALID); 142*8a7d0e8cSEnji Cooper testall(acos, -INFINITY, NAN, FE_INVALID); 143*8a7d0e8cSEnji Cooper testall(atan, -INFINITY, -pi / 2, FE_INEXACT); 144*8a7d0e8cSEnji Cooper 145*8a7d0e8cSEnji Cooper testall(asin, NAN, NAN, 0); 146*8a7d0e8cSEnji Cooper testall(acos, NAN, NAN, 0); 147*8a7d0e8cSEnji Cooper testall(atan, NAN, NAN, 0); 148*8a7d0e8cSEnji Cooper } 149*8a7d0e8cSEnji Cooper 150*8a7d0e8cSEnji Cooper /* 151*8a7d0e8cSEnji Cooper * Test special case inputs in atan2(), where the exact value of y/x is 152*8a7d0e8cSEnji Cooper * zero or non-finite. 153*8a7d0e8cSEnji Cooper */ 154*8a7d0e8cSEnji Cooper static void 155*8a7d0e8cSEnji Cooper test_special_atan2(void) 156*8a7d0e8cSEnji Cooper { 157*8a7d0e8cSEnji Cooper long double z; 158*8a7d0e8cSEnji Cooper int e; 159*8a7d0e8cSEnji Cooper 160*8a7d0e8cSEnji Cooper testall2(atan2, 0.0, -0.0, pi, FE_INEXACT); 161*8a7d0e8cSEnji Cooper testall2(atan2, -0.0, -0.0, -pi, FE_INEXACT); 162*8a7d0e8cSEnji Cooper testall2(atan2, 0.0, 0.0, 0.0, 0); 163*8a7d0e8cSEnji Cooper testall2(atan2, -0.0, 0.0, -0.0, 0); 164*8a7d0e8cSEnji Cooper 165*8a7d0e8cSEnji Cooper testall2(atan2, INFINITY, -INFINITY, c3pi / 4, FE_INEXACT); 166*8a7d0e8cSEnji Cooper testall2(atan2, -INFINITY, -INFINITY, -c3pi / 4, FE_INEXACT); 167*8a7d0e8cSEnji Cooper testall2(atan2, INFINITY, INFINITY, pi / 4, FE_INEXACT); 168*8a7d0e8cSEnji Cooper testall2(atan2, -INFINITY, INFINITY, -pi / 4, FE_INEXACT); 169*8a7d0e8cSEnji Cooper 170*8a7d0e8cSEnji Cooper /* Tests with one input in the range (0, Inf]. */ 171*8a7d0e8cSEnji Cooper z = 1.23456789L; 172*8a7d0e8cSEnji Cooper for (e = FLT_MIN_EXP - FLT_MANT_DIG; e <= FLT_MAX_EXP; e++) { 173*8a7d0e8cSEnji Cooper test2(atan2f, 0.0, ldexpf(z, e), 0.0, 0); 174*8a7d0e8cSEnji Cooper test2(atan2f, -0.0, ldexpf(z, e), -0.0, 0); 175*8a7d0e8cSEnji Cooper test2(atan2f, 0.0, ldexpf(-z, e), (float)pi, FE_INEXACT); 176*8a7d0e8cSEnji Cooper test2(atan2f, -0.0, ldexpf(-z, e), (float)-pi, FE_INEXACT); 177*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(z, e), 0.0, (float)pi / 2, FE_INEXACT); 178*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(z, e), -0.0, (float)pi / 2, FE_INEXACT); 179*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(-z, e), 0.0, (float)-pi / 2, FE_INEXACT); 180*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(-z, e), -0.0, (float)-pi / 2, FE_INEXACT); 181*8a7d0e8cSEnji Cooper } 182*8a7d0e8cSEnji Cooper for (e = DBL_MIN_EXP - DBL_MANT_DIG; e <= DBL_MAX_EXP; e++) { 183*8a7d0e8cSEnji Cooper test2(atan2, 0.0, ldexp(z, e), 0.0, 0); 184*8a7d0e8cSEnji Cooper test2(atan2, -0.0, ldexp(z, e), -0.0, 0); 185*8a7d0e8cSEnji Cooper test2(atan2, 0.0, ldexp(-z, e), (double)pi, FE_INEXACT); 186*8a7d0e8cSEnji Cooper test2(atan2, -0.0, ldexp(-z, e), (double)-pi, FE_INEXACT); 187*8a7d0e8cSEnji Cooper test2(atan2, ldexp(z, e), 0.0, (double)pi / 2, FE_INEXACT); 188*8a7d0e8cSEnji Cooper test2(atan2, ldexp(z, e), -0.0, (double)pi / 2, FE_INEXACT); 189*8a7d0e8cSEnji Cooper test2(atan2, ldexp(-z, e), 0.0, (double)-pi / 2, FE_INEXACT); 190*8a7d0e8cSEnji Cooper test2(atan2, ldexp(-z, e), -0.0, (double)-pi / 2, FE_INEXACT); 191*8a7d0e8cSEnji Cooper } 192*8a7d0e8cSEnji Cooper for (e = LDBL_MIN_EXP - LDBL_MANT_DIG; e <= LDBL_MAX_EXP; e++) { 193*8a7d0e8cSEnji Cooper test2(atan2l, 0.0, ldexpl(z, e), 0.0, 0); 194*8a7d0e8cSEnji Cooper test2(atan2l, -0.0, ldexpl(z, e), -0.0, 0); 195*8a7d0e8cSEnji Cooper test2(atan2l, 0.0, ldexpl(-z, e), pi, FE_INEXACT); 196*8a7d0e8cSEnji Cooper test2(atan2l, -0.0, ldexpl(-z, e), -pi, FE_INEXACT); 197*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(z, e), 0.0, pi / 2, FE_INEXACT); 198*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(z, e), -0.0, pi / 2, FE_INEXACT); 199*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(-z, e), 0.0, -pi / 2, FE_INEXACT); 200*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(-z, e), -0.0, -pi / 2, FE_INEXACT); 201*8a7d0e8cSEnji Cooper } 202*8a7d0e8cSEnji Cooper 203*8a7d0e8cSEnji Cooper /* Tests with one input in the range (0, Inf). */ 204*8a7d0e8cSEnji Cooper for (e = FLT_MIN_EXP - FLT_MANT_DIG; e <= FLT_MAX_EXP - 1; e++) { 205*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(z, e), INFINITY, 0.0, 0); 206*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(-z,e), INFINITY, -0.0, 0); 207*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(z, e), -INFINITY, (float)pi, FE_INEXACT); 208*8a7d0e8cSEnji Cooper test2(atan2f, ldexpf(-z,e), -INFINITY, (float)-pi, FE_INEXACT); 209*8a7d0e8cSEnji Cooper test2(atan2f, INFINITY, ldexpf(z,e), (float)pi/2, FE_INEXACT); 210*8a7d0e8cSEnji Cooper test2(atan2f, INFINITY, ldexpf(-z,e), (float)pi/2, FE_INEXACT); 211*8a7d0e8cSEnji Cooper test2(atan2f, -INFINITY, ldexpf(z,e), (float)-pi/2,FE_INEXACT); 212*8a7d0e8cSEnji Cooper test2(atan2f, -INFINITY, ldexpf(-z,e),(float)-pi/2,FE_INEXACT); 213*8a7d0e8cSEnji Cooper } 214*8a7d0e8cSEnji Cooper for (e = DBL_MIN_EXP - DBL_MANT_DIG; e <= DBL_MAX_EXP - 1; e++) { 215*8a7d0e8cSEnji Cooper test2(atan2, ldexp(z, e), INFINITY, 0.0, 0); 216*8a7d0e8cSEnji Cooper test2(atan2, ldexp(-z,e), INFINITY, -0.0, 0); 217*8a7d0e8cSEnji Cooper test2(atan2, ldexp(z, e), -INFINITY, (double)pi, FE_INEXACT); 218*8a7d0e8cSEnji Cooper test2(atan2, ldexp(-z,e), -INFINITY, (double)-pi, FE_INEXACT); 219*8a7d0e8cSEnji Cooper test2(atan2, INFINITY, ldexp(z,e), (double)pi/2, FE_INEXACT); 220*8a7d0e8cSEnji Cooper test2(atan2, INFINITY, ldexp(-z,e), (double)pi/2, FE_INEXACT); 221*8a7d0e8cSEnji Cooper test2(atan2, -INFINITY, ldexp(z,e), (double)-pi/2,FE_INEXACT); 222*8a7d0e8cSEnji Cooper test2(atan2, -INFINITY, ldexp(-z,e),(double)-pi/2,FE_INEXACT); 223*8a7d0e8cSEnji Cooper } 224*8a7d0e8cSEnji Cooper for (e = LDBL_MIN_EXP - LDBL_MANT_DIG; e <= LDBL_MAX_EXP - 1; e++) { 225*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(z, e), INFINITY, 0.0, 0); 226*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(-z,e), INFINITY, -0.0, 0); 227*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(z, e), -INFINITY, pi, FE_INEXACT); 228*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(-z,e), -INFINITY, -pi, FE_INEXACT); 229*8a7d0e8cSEnji Cooper test2(atan2l, INFINITY, ldexpl(z, e), pi / 2, FE_INEXACT); 230*8a7d0e8cSEnji Cooper test2(atan2l, INFINITY, ldexpl(-z, e), pi / 2, FE_INEXACT); 231*8a7d0e8cSEnji Cooper test2(atan2l, -INFINITY, ldexpl(z, e), -pi / 2, FE_INEXACT); 232*8a7d0e8cSEnji Cooper test2(atan2l, -INFINITY, ldexpl(-z, e), -pi / 2, FE_INEXACT); 233*8a7d0e8cSEnji Cooper } 234*8a7d0e8cSEnji Cooper } 235*8a7d0e8cSEnji Cooper 236*8a7d0e8cSEnji Cooper /* 237*8a7d0e8cSEnji Cooper * Test various inputs to asin(), acos() and atan() and verify that the 238*8a7d0e8cSEnji Cooper * results are accurate to within 1 ulp. 239*8a7d0e8cSEnji Cooper */ 240*8a7d0e8cSEnji Cooper static void 241*8a7d0e8cSEnji Cooper test_accuracy(void) 242*8a7d0e8cSEnji Cooper { 243*8a7d0e8cSEnji Cooper 244*8a7d0e8cSEnji Cooper /* We expect correctly rounded results for these basic cases. */ 245*8a7d0e8cSEnji Cooper testall(asin, 1.0, pi / 2, FE_INEXACT); 246*8a7d0e8cSEnji Cooper testall(acos, 1.0, 0, 0); 247*8a7d0e8cSEnji Cooper testall(atan, 1.0, pi / 4, FE_INEXACT); 248*8a7d0e8cSEnji Cooper testall(asin, -1.0, -pi / 2, FE_INEXACT); 249*8a7d0e8cSEnji Cooper testall(acos, -1.0, pi, FE_INEXACT); 250*8a7d0e8cSEnji Cooper testall(atan, -1.0, -pi / 4, FE_INEXACT); 251*8a7d0e8cSEnji Cooper 252*8a7d0e8cSEnji Cooper /* 253*8a7d0e8cSEnji Cooper * Here we expect answers to be within 1 ulp, although inexactness 254*8a7d0e8cSEnji Cooper * in the input, combined with double rounding, could cause larger 255*8a7d0e8cSEnji Cooper * errors. 256*8a7d0e8cSEnji Cooper */ 257*8a7d0e8cSEnji Cooper 258*8a7d0e8cSEnji Cooper testall_tol(asin, sqrtl(2) / 2, pi / 4, 1, FE_INEXACT); 259*8a7d0e8cSEnji Cooper testall_tol(acos, sqrtl(2) / 2, pi / 4, 1, FE_INEXACT); 260*8a7d0e8cSEnji Cooper testall_tol(asin, -sqrtl(2) / 2, -pi / 4, 1, FE_INEXACT); 261*8a7d0e8cSEnji Cooper testall_tol(acos, -sqrtl(2) / 2, c3pi / 4, 1, FE_INEXACT); 262*8a7d0e8cSEnji Cooper 263*8a7d0e8cSEnji Cooper testall_tol(asin, sqrtl(3) / 2, pio3, 1, FE_INEXACT); 264*8a7d0e8cSEnji Cooper testall_tol(acos, sqrtl(3) / 2, pio3 / 2, 1, FE_INEXACT); 265*8a7d0e8cSEnji Cooper testall_tol(atan, sqrtl(3), pio3, 1, FE_INEXACT); 266*8a7d0e8cSEnji Cooper testall_tol(asin, -sqrtl(3) / 2, -pio3, 1, FE_INEXACT); 267*8a7d0e8cSEnji Cooper testall_tol(acos, -sqrtl(3) / 2, c5pio3 / 2, 1, FE_INEXACT); 268*8a7d0e8cSEnji Cooper testall_tol(atan, -sqrtl(3), -pio3, 1, FE_INEXACT); 269*8a7d0e8cSEnji Cooper 270*8a7d0e8cSEnji Cooper testall_tol(atan, sqrt2m1, pi / 8, 1, FE_INEXACT); 271*8a7d0e8cSEnji Cooper testall_tol(atan, -sqrt2m1, -pi / 8, 1, FE_INEXACT); 272*8a7d0e8cSEnji Cooper } 273*8a7d0e8cSEnji Cooper 274*8a7d0e8cSEnji Cooper /* 275*8a7d0e8cSEnji Cooper * Test inputs to atan2() where x is a power of 2. These are easy cases 276*8a7d0e8cSEnji Cooper * because y/x is exact. 277*8a7d0e8cSEnji Cooper */ 278*8a7d0e8cSEnji Cooper static void 279*8a7d0e8cSEnji Cooper test_p2x_atan2(void) 280*8a7d0e8cSEnji Cooper { 281*8a7d0e8cSEnji Cooper 282*8a7d0e8cSEnji Cooper testall2(atan2, 1.0, 1.0, pi / 4, FE_INEXACT); 283*8a7d0e8cSEnji Cooper testall2(atan2, 1.0, -1.0, c3pi / 4, FE_INEXACT); 284*8a7d0e8cSEnji Cooper testall2(atan2, -1.0, 1.0, -pi / 4, FE_INEXACT); 285*8a7d0e8cSEnji Cooper testall2(atan2, -1.0, -1.0, -c3pi / 4, FE_INEXACT); 286*8a7d0e8cSEnji Cooper 287*8a7d0e8cSEnji Cooper testall2_tol(atan2, sqrt2m1 * 2, 2.0, pi / 8, 1, FE_INEXACT); 288*8a7d0e8cSEnji Cooper testall2_tol(atan2, sqrt2m1 * 2, -2.0, c7pi / 8, 1, FE_INEXACT); 289*8a7d0e8cSEnji Cooper testall2_tol(atan2, -sqrt2m1 * 2, 2.0, -pi / 8, 1, FE_INEXACT); 290*8a7d0e8cSEnji Cooper testall2_tol(atan2, -sqrt2m1 * 2, -2.0, -c7pi / 8, 1, FE_INEXACT); 291*8a7d0e8cSEnji Cooper 292*8a7d0e8cSEnji Cooper testall2_tol(atan2, sqrtl(3) * 0.5, 0.5, pio3, 1, FE_INEXACT); 293*8a7d0e8cSEnji Cooper testall2_tol(atan2, sqrtl(3) * 0.5, -0.5, pio3 * 2, 1, FE_INEXACT); 294*8a7d0e8cSEnji Cooper testall2_tol(atan2, -sqrtl(3) * 0.5, 0.5, -pio3, 1, FE_INEXACT); 295*8a7d0e8cSEnji Cooper testall2_tol(atan2, -sqrtl(3) * 0.5, -0.5, -pio3 * 2, 1, FE_INEXACT); 296*8a7d0e8cSEnji Cooper } 297*8a7d0e8cSEnji Cooper 298*8a7d0e8cSEnji Cooper /* 299*8a7d0e8cSEnji Cooper * Test inputs very close to 0. 300*8a7d0e8cSEnji Cooper */ 301*8a7d0e8cSEnji Cooper static void 302*8a7d0e8cSEnji Cooper test_tiny(void) 303*8a7d0e8cSEnji Cooper { 304*8a7d0e8cSEnji Cooper float tiny = 0x1.23456p-120f; 305*8a7d0e8cSEnji Cooper 306*8a7d0e8cSEnji Cooper testall(asin, tiny, tiny, FE_INEXACT); 307*8a7d0e8cSEnji Cooper testall(acos, tiny, pi / 2, FE_INEXACT); 308*8a7d0e8cSEnji Cooper testall(atan, tiny, tiny, FE_INEXACT); 309*8a7d0e8cSEnji Cooper 310*8a7d0e8cSEnji Cooper testall(asin, -tiny, -tiny, FE_INEXACT); 311*8a7d0e8cSEnji Cooper testall(acos, -tiny, pi / 2, FE_INEXACT); 312*8a7d0e8cSEnji Cooper testall(atan, -tiny, -tiny, FE_INEXACT); 313*8a7d0e8cSEnji Cooper 314*8a7d0e8cSEnji Cooper /* Test inputs to atan2() that would cause y/x to underflow. */ 315*8a7d0e8cSEnji Cooper test2(atan2f, 0x1.0p-100, 0x1.0p100, 0.0, FE_INEXACT | FE_UNDERFLOW); 316*8a7d0e8cSEnji Cooper test2(atan2, 0x1.0p-1000, 0x1.0p1000, 0.0, FE_INEXACT | FE_UNDERFLOW); 317*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(1.0, 100 - LDBL_MAX_EXP), 318*8a7d0e8cSEnji Cooper ldexpl(1.0, LDBL_MAX_EXP - 100), 0.0, FE_INEXACT | FE_UNDERFLOW); 319*8a7d0e8cSEnji Cooper test2(atan2f, -0x1.0p-100, 0x1.0p100, -0.0, FE_INEXACT | FE_UNDERFLOW); 320*8a7d0e8cSEnji Cooper test2(atan2, -0x1.0p-1000, 0x1.0p1000, -0.0, FE_INEXACT | FE_UNDERFLOW); 321*8a7d0e8cSEnji Cooper test2(atan2l, -ldexpl(1.0, 100 - LDBL_MAX_EXP), 322*8a7d0e8cSEnji Cooper ldexpl(1.0, LDBL_MAX_EXP - 100), -0.0, FE_INEXACT | FE_UNDERFLOW); 323*8a7d0e8cSEnji Cooper test2(atan2f, 0x1.0p-100, -0x1.0p100, (float)pi, FE_INEXACT); 324*8a7d0e8cSEnji Cooper test2(atan2, 0x1.0p-1000, -0x1.0p1000, (double)pi, FE_INEXACT); 325*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(1.0, 100 - LDBL_MAX_EXP), 326*8a7d0e8cSEnji Cooper -ldexpl(1.0, LDBL_MAX_EXP - 100), pi, FE_INEXACT); 327*8a7d0e8cSEnji Cooper test2(atan2f, -0x1.0p-100, -0x1.0p100, (float)-pi, FE_INEXACT); 328*8a7d0e8cSEnji Cooper test2(atan2, -0x1.0p-1000, -0x1.0p1000, (double)-pi, FE_INEXACT); 329*8a7d0e8cSEnji Cooper test2(atan2l, -ldexpl(1.0, 100 - LDBL_MAX_EXP), 330*8a7d0e8cSEnji Cooper -ldexpl(1.0, LDBL_MAX_EXP - 100), -pi, FE_INEXACT); 331*8a7d0e8cSEnji Cooper } 332*8a7d0e8cSEnji Cooper 333*8a7d0e8cSEnji Cooper /* 334*8a7d0e8cSEnji Cooper * Test very large inputs to atan(). 335*8a7d0e8cSEnji Cooper */ 336*8a7d0e8cSEnji Cooper static void 337*8a7d0e8cSEnji Cooper test_atan_huge(void) 338*8a7d0e8cSEnji Cooper { 339*8a7d0e8cSEnji Cooper float huge = 0x1.23456p120; 340*8a7d0e8cSEnji Cooper 341*8a7d0e8cSEnji Cooper testall(atan, huge, pi / 2, FE_INEXACT); 342*8a7d0e8cSEnji Cooper testall(atan, -huge, -pi / 2, FE_INEXACT); 343*8a7d0e8cSEnji Cooper 344*8a7d0e8cSEnji Cooper /* Test inputs to atan2() that would cause y/x to overflow. */ 345*8a7d0e8cSEnji Cooper test2(atan2f, 0x1.0p100, 0x1.0p-100, (float)pi / 2, FE_INEXACT); 346*8a7d0e8cSEnji Cooper test2(atan2, 0x1.0p1000, 0x1.0p-1000, (double)pi / 2, FE_INEXACT); 347*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(1.0, LDBL_MAX_EXP - 100), 348*8a7d0e8cSEnji Cooper ldexpl(1.0, 100 - LDBL_MAX_EXP), pi / 2, FE_INEXACT); 349*8a7d0e8cSEnji Cooper test2(atan2f, -0x1.0p100, 0x1.0p-100, (float)-pi / 2, FE_INEXACT); 350*8a7d0e8cSEnji Cooper test2(atan2, -0x1.0p1000, 0x1.0p-1000, (double)-pi / 2, FE_INEXACT); 351*8a7d0e8cSEnji Cooper test2(atan2l, -ldexpl(1.0, LDBL_MAX_EXP - 100), 352*8a7d0e8cSEnji Cooper ldexpl(1.0, 100 - LDBL_MAX_EXP), -pi / 2, FE_INEXACT); 353*8a7d0e8cSEnji Cooper 354*8a7d0e8cSEnji Cooper test2(atan2f, 0x1.0p100, -0x1.0p-100, (float)pi / 2, FE_INEXACT); 355*8a7d0e8cSEnji Cooper test2(atan2, 0x1.0p1000, -0x1.0p-1000, (double)pi / 2, FE_INEXACT); 356*8a7d0e8cSEnji Cooper test2(atan2l, ldexpl(1.0, LDBL_MAX_EXP - 100), 357*8a7d0e8cSEnji Cooper -ldexpl(1.0, 100 - LDBL_MAX_EXP), pi / 2, FE_INEXACT); 358*8a7d0e8cSEnji Cooper test2(atan2f, -0x1.0p100, -0x1.0p-100, (float)-pi / 2, FE_INEXACT); 359*8a7d0e8cSEnji Cooper test2(atan2, -0x1.0p1000, -0x1.0p-1000, (double)-pi / 2, FE_INEXACT); 360*8a7d0e8cSEnji Cooper test2(atan2l, -ldexpl(1.0, LDBL_MAX_EXP - 100), 361*8a7d0e8cSEnji Cooper -ldexpl(1.0, 100 - LDBL_MAX_EXP), -pi / 2, FE_INEXACT); 362*8a7d0e8cSEnji Cooper } 363*8a7d0e8cSEnji Cooper 364*8a7d0e8cSEnji Cooper /* 365*8a7d0e8cSEnji Cooper * Test that sin(asin(x)) == x, and similarly for acos() and atan(). 366*8a7d0e8cSEnji Cooper * You need to have a working sinl(), cosl(), and tanl() for these 367*8a7d0e8cSEnji Cooper * tests to pass. 368*8a7d0e8cSEnji Cooper */ 369*8a7d0e8cSEnji Cooper static long double 370*8a7d0e8cSEnji Cooper sinasinf(float x) 371*8a7d0e8cSEnji Cooper { 372*8a7d0e8cSEnji Cooper 373*8a7d0e8cSEnji Cooper return (sinl(asinf(x))); 374*8a7d0e8cSEnji Cooper } 375*8a7d0e8cSEnji Cooper 376*8a7d0e8cSEnji Cooper static long double 377*8a7d0e8cSEnji Cooper sinasin(double x) 378*8a7d0e8cSEnji Cooper { 379*8a7d0e8cSEnji Cooper 380*8a7d0e8cSEnji Cooper return (sinl(asin(x))); 381*8a7d0e8cSEnji Cooper } 382*8a7d0e8cSEnji Cooper 383*8a7d0e8cSEnji Cooper static long double 384*8a7d0e8cSEnji Cooper sinasinl(long double x) 385*8a7d0e8cSEnji Cooper { 386*8a7d0e8cSEnji Cooper 387*8a7d0e8cSEnji Cooper return (sinl(asinl(x))); 388*8a7d0e8cSEnji Cooper } 389*8a7d0e8cSEnji Cooper 390*8a7d0e8cSEnji Cooper static long double 391*8a7d0e8cSEnji Cooper cosacosf(float x) 392*8a7d0e8cSEnji Cooper { 393*8a7d0e8cSEnji Cooper 394*8a7d0e8cSEnji Cooper return (cosl(acosf(x))); 395*8a7d0e8cSEnji Cooper } 396*8a7d0e8cSEnji Cooper 397*8a7d0e8cSEnji Cooper static long double 398*8a7d0e8cSEnji Cooper cosacos(double x) 399*8a7d0e8cSEnji Cooper { 400*8a7d0e8cSEnji Cooper 401*8a7d0e8cSEnji Cooper return (cosl(acos(x))); 402*8a7d0e8cSEnji Cooper } 403*8a7d0e8cSEnji Cooper 404*8a7d0e8cSEnji Cooper static long double 405*8a7d0e8cSEnji Cooper cosacosl(long double x) 406*8a7d0e8cSEnji Cooper { 407*8a7d0e8cSEnji Cooper 408*8a7d0e8cSEnji Cooper return (cosl(acosl(x))); 409*8a7d0e8cSEnji Cooper } 410*8a7d0e8cSEnji Cooper 411*8a7d0e8cSEnji Cooper static long double 412*8a7d0e8cSEnji Cooper tanatanf(float x) 413*8a7d0e8cSEnji Cooper { 414*8a7d0e8cSEnji Cooper 415*8a7d0e8cSEnji Cooper return (tanl(atanf(x))); 416*8a7d0e8cSEnji Cooper } 417*8a7d0e8cSEnji Cooper 418*8a7d0e8cSEnji Cooper static long double 419*8a7d0e8cSEnji Cooper tanatan(double x) 420*8a7d0e8cSEnji Cooper { 421*8a7d0e8cSEnji Cooper 422*8a7d0e8cSEnji Cooper return (tanl(atan(x))); 423*8a7d0e8cSEnji Cooper } 424*8a7d0e8cSEnji Cooper 425*8a7d0e8cSEnji Cooper static long double 426*8a7d0e8cSEnji Cooper tanatanl(long double x) 427*8a7d0e8cSEnji Cooper { 428*8a7d0e8cSEnji Cooper 429*8a7d0e8cSEnji Cooper return (tanl(atanl(x))); 430*8a7d0e8cSEnji Cooper } 431*8a7d0e8cSEnji Cooper 432*8a7d0e8cSEnji Cooper static void 433*8a7d0e8cSEnji Cooper test_inverse(void) 434*8a7d0e8cSEnji Cooper { 435*8a7d0e8cSEnji Cooper float i; 436*8a7d0e8cSEnji Cooper 437*8a7d0e8cSEnji Cooper for (i = -1; i <= 1; i += 0x1.0p-12f) { 438*8a7d0e8cSEnji Cooper testall_tol(sinasin, i, i, 2, i == 0 ? 0 : FE_INEXACT); 439*8a7d0e8cSEnji Cooper /* The relative error for cosacos is very large near x=0. */ 440*8a7d0e8cSEnji Cooper if (fabsf(i) > 0x1.0p-4f) 441*8a7d0e8cSEnji Cooper testall_tol(cosacos, i, i, 16, i == 1 ? 0 : FE_INEXACT); 442*8a7d0e8cSEnji Cooper testall_tol(tanatan, i, i, 2, i == 0 ? 0 : FE_INEXACT); 443*8a7d0e8cSEnji Cooper } 444*8a7d0e8cSEnji Cooper } 445*8a7d0e8cSEnji Cooper 446*8a7d0e8cSEnji Cooper int 447*8a7d0e8cSEnji Cooper main(int argc, char *argv[]) 448*8a7d0e8cSEnji Cooper { 449*8a7d0e8cSEnji Cooper 450*8a7d0e8cSEnji Cooper #if defined(__i386__) 451*8a7d0e8cSEnji Cooper printf("1..0 # SKIP fails all assertions on i386\n"); 452*8a7d0e8cSEnji Cooper return (0); 453*8a7d0e8cSEnji Cooper #endif 454*8a7d0e8cSEnji Cooper 455*8a7d0e8cSEnji Cooper printf("1..7\n"); 456*8a7d0e8cSEnji Cooper 457*8a7d0e8cSEnji Cooper test_special(); 458*8a7d0e8cSEnji Cooper printf("ok 1 - special\n"); 459*8a7d0e8cSEnji Cooper 460*8a7d0e8cSEnji Cooper test_special_atan2(); 461*8a7d0e8cSEnji Cooper printf("ok 2 - atan2 special\n"); 462*8a7d0e8cSEnji Cooper 463*8a7d0e8cSEnji Cooper test_accuracy(); 464*8a7d0e8cSEnji Cooper printf("ok 3 - accuracy\n"); 465*8a7d0e8cSEnji Cooper 466*8a7d0e8cSEnji Cooper test_p2x_atan2(); 467*8a7d0e8cSEnji Cooper printf("ok 4 - atan2 p2x\n"); 468*8a7d0e8cSEnji Cooper 469*8a7d0e8cSEnji Cooper test_tiny(); 470*8a7d0e8cSEnji Cooper printf("ok 5 - tiny inputs\n"); 471*8a7d0e8cSEnji Cooper 472*8a7d0e8cSEnji Cooper test_atan_huge(); 473*8a7d0e8cSEnji Cooper printf("ok 6 - atan huge inputs\n"); 474*8a7d0e8cSEnji Cooper 475*8a7d0e8cSEnji Cooper test_inverse(); 476*8a7d0e8cSEnji Cooper printf("ok 7 - inverse\n"); 477*8a7d0e8cSEnji Cooper 478*8a7d0e8cSEnji Cooper return (0); 479*8a7d0e8cSEnji Cooper } 480