fpmacros.c 7.2 KB

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  1. /***********************************************************************
  2. ** File: fpmacros.c
  3. **
  4. ** Contains: C source code for implementations of floating-point
  5. ** functions which involve float format numbers, as
  6. ** defined in header <fp.h>. In particular, this file
  7. ** contains implementations of functions
  8. ** __fpclassify(d,f), __isnormal(d,f), __isfinite(d,f),
  9. ** __isnan(d,f), and __signbit(d,f). This file targets
  10. ** PowerPC platforms.
  11. **
  12. ** Written by: Robert A. Murley, Ali Sazegari
  13. **
  14. ** Copyright: c 2001 by Apple Computer, Inc., all rights reserved
  15. **
  16. ** Change History (most recent first):
  17. **
  18. ** 07 Jul 01 ram First created from fpfloatfunc.c, fp.c,
  19. ** classify.c and sign.c in MathLib v3 Mac OS9.
  20. **
  21. ***********************************************************************/
  22. #include <features.h>
  23. #include <sys/types.h>
  24. #include <math.h>
  25. #include "fp_private.h"
  26. #define SIGN_MASK 0x80000000
  27. #define NSIGN_MASK 0x7fffffff
  28. #define FEXP_MASK 0x7f800000
  29. #define FFRAC_MASK 0x007fffff
  30. /***********************************************************************
  31. int __fpclassifyf(float x) returns the classification code of the
  32. argument x, as defined in <fp.h>.
  33. Exceptions: INVALID signaled if x is a signaling NaN; in this case,
  34. the FP_QNAN code is returned.
  35. Calls: none
  36. ***********************************************************************/
  37. int __fpclassifyf ( float x )
  38. {
  39. unsigned int iexp;
  40. union {
  41. u_int32_t lval;
  42. float fval;
  43. } z;
  44. z.fval = x;
  45. iexp = z.lval & FEXP_MASK; /* isolate float exponent */
  46. if (iexp == FEXP_MASK) { /* NaN or INF case */
  47. if ((z.lval & 0x007fffff) == 0)
  48. return FP_INFINITE;
  49. return FP_NAN;
  50. }
  51. if (iexp != 0) /* normal float */
  52. return FP_NORMAL;
  53. if (x == 0.0)
  54. return FP_ZERO; /* zero */
  55. else
  56. return FP_SUBNORMAL; /* must be subnormal */
  57. }
  58. /***********************************************************************
  59. Function __fpclassify,
  60. Implementation of classify of a double number for the PowerPC.
  61. Exceptions: INVALID signaled if x is a signaling NaN; in this case,
  62. the FP_QNAN code is returned.
  63. Calls: none
  64. ***********************************************************************/
  65. int __fpclassify ( double arg )
  66. {
  67. register unsigned int exponent;
  68. union
  69. {
  70. dHexParts hex;
  71. double dbl;
  72. } x;
  73. x.dbl = arg;
  74. exponent = x.hex.high & dExpMask;
  75. if ( exponent == dExpMask )
  76. {
  77. if ( ( ( x.hex.high & dHighMan ) | x.hex.low ) == 0 )
  78. return FP_INFINITE;
  79. else
  80. return FP_NAN;
  81. }
  82. else if ( exponent != 0)
  83. return FP_NORMAL;
  84. else {
  85. if ( arg == 0.0 )
  86. return FP_ZERO;
  87. else
  88. return FP_SUBNORMAL;
  89. }
  90. }
  91. /***********************************************************************
  92. int __isnormalf(float x) returns nonzero if and only if x is a
  93. normalized float number and zero otherwise.
  94. Exceptions: INVALID is raised if x is a signaling NaN; in this case,
  95. zero is returned.
  96. Calls: none
  97. ***********************************************************************/
  98. int __isnormalf ( float x )
  99. {
  100. unsigned int iexp;
  101. union {
  102. u_int32_t lval;
  103. float fval;
  104. } z;
  105. z.fval = x;
  106. iexp = z.lval & FEXP_MASK; /* isolate float exponent */
  107. return ((iexp != FEXP_MASK) && (iexp != 0));
  108. }
  109. int __isnormal ( double x )
  110. {
  111. return ( __fpclassify ( x ) == FP_NORMAL );
  112. }
  113. /***********************************************************************
  114. int __isfinitef(float x) returns nonzero if and only if x is a
  115. finite (normal, subnormal, or zero) float number and zero otherwise.
  116. Exceptions: INVALID is raised if x is a signaling NaN; in this case,
  117. zero is returned.
  118. Calls: none
  119. ***********************************************************************/
  120. int __finitef ( float x )
  121. {
  122. union {
  123. u_int32_t lval;
  124. float fval;
  125. } z;
  126. z.fval = x;
  127. return ((z.lval & FEXP_MASK) != FEXP_MASK);
  128. }
  129. int __finite ( double x )
  130. {
  131. return ( __fpclassify ( x ) >= FP_ZERO );
  132. }
  133. /***********************************************************************
  134. int __signbitf(float x) returns nonzero if and only if the sign
  135. bit of x is set and zero otherwise.
  136. Exceptions: INVALID is raised if x is a signaling NaN.
  137. Calls: none
  138. ***********************************************************************/
  139. int __signbitf ( float x )
  140. {
  141. union {
  142. u_int32_t lval;
  143. float fval;
  144. } z;
  145. z.fval = x;
  146. return ((z.lval & SIGN_MASK) != 0);
  147. }
  148. /***********************************************************************
  149. Function sign of a double.
  150. Implementation of sign bit for the PowerPC.
  151. Calls: none
  152. ***********************************************************************/
  153. int __signbit ( double arg )
  154. {
  155. union
  156. {
  157. dHexParts hex;
  158. double dbl;
  159. } x;
  160. int sign;
  161. x.dbl = arg;
  162. sign = ( ( x.hex.high & dSgnMask ) == dSgnMask ) ? 1 : 0;
  163. return sign;
  164. }
  165. /***********************************************************************
  166. * int __isinff(float x) returns -1 if value represents negative
  167. * infinity, 1 if value represents positive infinity,
  168. * and 0 otherwise.
  169. *
  170. * Calls: __signbit
  171. * +***********************************************************************/
  172. int __isinff ( float x )
  173. {
  174. int class = __fpclassifyf(x);
  175. if ( class == FP_INFINITE ) {
  176. return ( (__signbitf(x)) ? -1 : 1);
  177. }
  178. return 0;
  179. }
  180. weak_alias (__isinff, isinff)
  181. int __isinf ( double x )
  182. {
  183. int class = __fpclassify(x);
  184. if ( class == FP_INFINITE ) {
  185. return ( (__signbit(x)) ? -1 : 1);
  186. }
  187. return 0;
  188. }
  189. weak_alias (__isinf, isinf)
  190. #if 0
  191. int __isinfl ( long double x )
  192. {
  193. int class = __fpclassify(x);
  194. if ( class == FP_INFINITE ) {
  195. return ( (__signbit(x)) ? -1 : 1);
  196. }
  197. return 0;
  198. }
  199. weak_alias (__isinfl, isinfl);
  200. #endif
  201. /***********************************************************************
  202. int __isnanf(float x) returns nonzero if and only if x is a
  203. NaN and zero otherwise.
  204. Exceptions: INVALID is raised if x is a signaling NaN; in this case,
  205. nonzero is returned.
  206. Calls: none
  207. ***********************************************************************/
  208. int __isnanf ( float x )
  209. {
  210. union {
  211. u_int32_t lval;
  212. float fval;
  213. } z;
  214. z.fval = x;
  215. return (((z.lval&FEXP_MASK) == FEXP_MASK) && ((z.lval&FFRAC_MASK) != 0));
  216. }
  217. weak_alias (__isnanf, isnanf);
  218. int __isnan ( double x )
  219. {
  220. int class = __fpclassify(x);
  221. return ( class == FP_NAN );
  222. }
  223. weak_alias (__isnan, isnan);
  224. #if 0
  225. int __isnanl ( long double x )
  226. {
  227. int class = __fpclassify(x);
  228. return ( class == FP_NAN );
  229. }
  230. weak_alias (__isnanl, isnanl);
  231. #endif