nsz Git - libc-test/blob - src/api/tgmath.c

   1 #include <tgmath.h>
   2 static void f()
   3 {
   4 double x=0, y=0, z=0;
   5 int i;
   6 #ifdef acos
   7 {double r = acos(x);}
   8 #else
   9 #error no acos(x)
  10 #endif
  11 #ifdef acosh
  12 {double r = acosh(x);}
  13 #else
  14 #error no acosh(x)
  15 #endif
  16 #ifdef asin
  17 {double r = asin(x);}
  18 #else
  19 #error no asin(x)
  20 #endif
  21 #ifdef asinh
  22 {double r = asinh(x);}
  23 #else
  24 #error no asinh(x)
  25 #endif
  26 #ifdef atan
  27 {double r = atan(x);}
  28 #else
  29 #error no atan(x)
  30 #endif
  31 #ifdef atan2
  32 {double r = atan2(x,y);}
  33 #else
  34 #error no atan2(x,y)
  35 #endif
  36 #ifdef atanh
  37 {double r = atanh(x);}
  38 #else
  39 #error no atanh(x)
  40 #endif
  41 #ifdef carg
  42 {double r = carg(x);}
  43 #else
  44 #error no carg(x)
  45 #endif
  46 #ifdef cbrt
  47 {double r = cbrt(x);}
  48 #else
  49 #error no cbrt(x)
  50 #endif
  51 #ifdef ceil
  52 {double r = ceil(x);}
  53 #else
  54 #error no ceil(x)
  55 #endif
  56 #ifdef cimag
  57 {double r = cimag(x);}
  58 #else
  59 #error no cimag(x)
  60 #endif
  61 #ifdef conj
  62 {double r = conj(x);}
  63 #else
  64 #error no conj(x)
  65 #endif
  66 #ifdef copysign
  67 {double r = copysign(x,y);}
  68 #else
  69 #error no copysign(x,y)
  70 #endif
  71 #ifdef cos
  72 {double r = cos(x);}
  73 #else
  74 #error no cos(x)
  75 #endif
  76 #ifdef cosh
  77 {double r = cosh(x);}
  78 #else
  79 #error no cosh(x)
  80 #endif
  81 #ifdef cproj
  82 {double r = cproj(x);}
  83 #else
  84 #error no cproj(x)
  85 #endif
  86 #ifdef creal
  87 {double r = creal(x);}
  88 #else
  89 #error no creal(x)
  90 #endif
  91 #ifdef erf
  92 {double r = erf(x);}
  93 #else
  94 #error no erf(x)
  95 #endif
  96 #ifdef erfc
  97 {double r = erfc(x);}
  98 #else
  99 #error no erfc(x)
 100 #endif
 101 #ifdef exp
 102 {double r = exp(x);}
 103 #else
 104 #error no exp(x)
 105 #endif
 106 #ifdef exp2
 107 {double r = exp2(x);}
 108 #else
 109 #error no exp2(x)
 110 #endif
 111 #ifdef expm1
 112 {double r = expm1(x);}
 113 #else
 114 #error no expm1(x)
 115 #endif
 116 #ifdef fabs
 117 {double r = fabs(x);}
 118 #else
 119 #error no fabs(x)
 120 #endif
 121 #ifdef fdim
 122 {double r = fdim(x,y);}
 123 #else
 124 #error no fdim(x,y)
 125 #endif
 126 #ifdef floor
 127 {double r = floor(x);}
 128 #else
 129 #error no floor(x)
 130 #endif
 131 #ifdef fma
 132 {double r = fma(x,y,z);}
 133 #else
 134 #error no fma(x,y,z)
 135 #endif
 136 #ifdef fmax
 137 {double r = fmax(x,y);}
 138 #else
 139 #error no fmax(x,y)
 140 #endif
 141 #ifdef fmin
 142 {double r = fmin(x,y);}
 143 #else
 144 #error no fmin(x,y)
 145 #endif
 146 #ifdef fmod
 147 {double r = fmod(x,y);}
 148 #else
 149 #error no fmod(x,y)
 150 #endif
 151 #ifdef frexp
 152 {double r = frexp(x,&i);}
 153 #else
 154 #error no frexp(x,y)
 155 #endif
 156 #ifdef hypot
 157 {double r = hypot(x,y);}
 158 #else
 159 #error no hypot(x,y)
 160 #endif
 161 #ifdef ilogb
 162 {double r = ilogb(x);}
 163 #else
 164 #error no ilogb(x)
 165 #endif
 166 #ifdef ldexp
 167 {double r = ldexp(x,y);}
 168 #else
 169 #error no ldexp(x,y)
 170 #endif
 171 #ifdef lgamma
 172 {double r = lgamma(x);}
 173 #else
 174 #error no lgamma(x)
 175 #endif
 176 #ifdef llrint
 177 {double r = llrint(x);}
 178 #else
 179 #error no llrint(x)
 180 #endif
 181 #ifdef llround
 182 {double r = llround(x);}
 183 #else
 184 #error no llround(x)
 185 #endif
 186 #ifdef log
 187 {double r = log(x);}
 188 #else
 189 #error no log(x)
 190 #endif
 191 #ifdef log10
 192 {double r = log10(x);}
 193 #else
 194 #error no log10(x)
 195 #endif
 196 #ifdef log1p
 197 {double r = log1p(x);}
 198 #else
 199 #error no log1p(x)
 200 #endif
 201 #ifdef log2
 202 {double r = log2(x);}
 203 #else
 204 #error no log2(x)
 205 #endif
 206 #ifdef logb
 207 {double r = logb(x);}
 208 #else
 209 #error no logb(x)
 210 #endif
 211 #ifdef lrint
 212 {double r = lrint(x);}
 213 #else
 214 #error no lrint(x)
 215 #endif
 216 #ifdef lround
 217 {double r = lround(x);}
 218 #else
 219 #error no lround(x)
 220 #endif
 221 #ifdef nearbyint
 222 {double r = nearbyint(x);}
 223 #else
 224 #error no nearbyint(x)
 225 #endif
 226 #ifdef nextafter
 227 {double r = nextafter(x,y);}
 228 #else
 229 #error no nextafter(x,y)
 230 #endif
 231 #ifdef nexttoward
 232 {double r = nexttoward(x,y);}
 233 #else
 234 #error no nexttoward(x,y)
 235 #endif
 236 #ifdef pow
 237 {double r = pow(x,y);}
 238 #else
 239 #error no pow(x,y)
 240 #endif
 241 #ifdef remainder
 242 {double r = remainder(x,y);}
 243 #else
 244 #error no remainder(x,y)
 245 #endif
 246 #ifdef remquo
 247 {double r = remquo(x,y,&i);}
 248 #else
 249 #error no remquo(x,y,z)
 250 #endif
 251 #ifdef rint
 252 {double r = rint(x);}
 253 #else
 254 #error no rint(x)
 255 #endif
 256 #ifdef round
 257 {double r = round(x);}
 258 #else
 259 #error no round(x)
 260 #endif
 261 #ifdef scalbln
 262 {double r = scalbln(x,y);}
 263 #else
 264 #error no scalbln(x,y)
 265 #endif
 266 #ifdef scalbn
 267 {double r = scalbn(x,y);}
 268 #else
 269 #error no scalbn(x,y)
 270 #endif
 271 #ifdef sin
 272 {double r = sin(x);}
 273 #else
 274 #error no sin(x)
 275 #endif
 276 #ifdef sinh
 277 {double r = sinh(x);}
 278 #else
 279 #error no sinh(x)
 280 #endif
 281 #ifdef sqrt
 282 {double r = sqrt(x);}
 283 #else
 284 #error no sqrt(x)
 285 #endif
 286 #ifdef tan
 287 {double r = tan(x);}
 288 #else
 289 #error no tan(x)
 290 #endif
 291 #ifdef tanh
 292 {double r = tanh(x);}
 293 #else
 294 #error no tanh(x)
 295 #endif
 296 #ifdef tgamma
 297 {double r = tgamma(x);}
 298 #else
 299 #error no tgamma(x)
 300 #endif
 301 #ifdef trunc
 302 {double r = trunc(x);}
 303 #else
 304 #error no trunc(x)
 305 #endif
 306 }
 307