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1 // fp_traits.hpp
2 
3 #ifndef BOOST_MATH_FP_TRAITS_HPP
4 #define BOOST_MATH_FP_TRAITS_HPP
5 
6 // Copyright (c) 2006 Johan Rade
7 
8 // Distributed under the Boost Software License, Version 1.0.
9 // (See accompanying file LICENSE_1_0.txt
10 // or copy at http://www.boost.org/LICENSE_1_0.txt)
11 
12 /*
13 To support old compilers, care has been taken to avoid partial template
14 specialization and meta function forwarding.
15 With these techniques, the code could be simplified.
16 */
17 
18 #if defined(__vms) && defined(__DECCXX) && !__IEEE_FLOAT
19 // The VAX floating point formats are used (for float and double)
20 #   define BOOST_FPCLASSIFY_VAX_FORMAT
21 #endif
22 
23 #include <cstring>
24 
25 #include <boost/assert.hpp>
26 #include <boost/cstdint.hpp>
27 #include <boost/detail/endian.hpp>
28 #include <boost/static_assert.hpp>
29 #include <boost/type_traits/is_floating_point.hpp>
30 
31 #ifdef BOOST_NO_STDC_NAMESPACE
32   namespace std{ using ::memcpy; }
33 #endif
34 
35 #ifndef FP_NORMAL
36 
37 #define FP_ZERO        0
38 #define FP_NORMAL      1
39 #define FP_INFINITE    2
40 #define FP_NAN         3
41 #define FP_SUBNORMAL   4
42 
43 #else
44 
45 #define BOOST_HAS_FPCLASSIFY
46 
47 #ifndef fpclassify
48 #  if (defined(__GLIBCPP__) || defined(__GLIBCXX__)) \
49          && defined(_GLIBCXX_USE_C99_MATH) \
50          && !(defined(_GLIBCXX_USE_C99_FP_MACROS_DYNAMIC) \
51          && (_GLIBCXX_USE_C99_FP_MACROS_DYNAMIC != 0))
52 #     ifdef _STLP_VENDOR_CSTD
53 #        if _STLPORT_VERSION >= 0x520
54 #           define BOOST_FPCLASSIFY_PREFIX ::__std_alias::
55 #        else
56 #           define BOOST_FPCLASSIFY_PREFIX ::_STLP_VENDOR_CSTD::
57 #        endif
58 #     else
59 #        define BOOST_FPCLASSIFY_PREFIX ::std::
60 #     endif
61 #  else
62 #     undef BOOST_HAS_FPCLASSIFY
63 #     define BOOST_FPCLASSIFY_PREFIX
64 #  endif
65 #elif (defined(__HP_aCC) && !defined(__hppa))
66 // aCC 6 appears to do "#define fpclassify fpclassify" which messes us up a bit!
67 #  define BOOST_FPCLASSIFY_PREFIX ::
68 #else
69 #  define BOOST_FPCLASSIFY_PREFIX
70 #endif
71 
72 #ifdef __MINGW32__
73 #  undef BOOST_HAS_FPCLASSIFY
74 #endif
75 
76 #endif
77 
78 
79 //------------------------------------------------------------------------------
80 
81 namespace boost {
82 namespace math {
83 namespace detail {
84 
85 //------------------------------------------------------------------------------
86 
87 /*
88 The following classes are used to tag the different methods that are used
89 for floating point classification
90 */
91 
92 struct native_tag {};
93 template <bool has_limits>
94 struct generic_tag {};
95 struct ieee_tag {};
96 struct ieee_copy_all_bits_tag : public ieee_tag {};
97 struct ieee_copy_leading_bits_tag : public ieee_tag {};
98 
99 #ifdef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS
100 //
101 // These helper functions are used only when numeric_limits<>
102 // members are not compile time constants:
103 //
is_generic_tag_false(const generic_tag<false> *)104 inline bool is_generic_tag_false(const generic_tag<false>*)
105 {
106    return true;
107 }
is_generic_tag_false(const void *)108 inline bool is_generic_tag_false(const void*)
109 {
110    return false;
111 }
112 #endif
113 
114 //------------------------------------------------------------------------------
115 
116 /*
117 Most processors support three different floating point precisions:
118 single precision (32 bits), double precision (64 bits)
119 and extended double precision (80 - 128 bits, depending on the processor)
120 
121 Note that the C++ type long double can be implemented
122 both as double precision and extended double precision.
123 */
124 
125 struct unknown_precision{};
126 struct single_precision {};
127 struct double_precision {};
128 struct extended_double_precision {};
129 
130 // native_tag version --------------------------------------------------------------
131 
132 template<class T> struct fp_traits_native
133 {
134     typedef native_tag method;
135 };
136 
137 // generic_tag version -------------------------------------------------------------
138 
139 template<class T, class U> struct fp_traits_non_native
140 {
141 #ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS
142    typedef generic_tag<std::numeric_limits<T>::is_specialized> method;
143 #else
144    typedef generic_tag<false> method;
145 #endif
146 };
147 
148 // ieee_tag versions ---------------------------------------------------------------
149 
150 /*
151 These specializations of fp_traits_non_native contain information needed
152 to "parse" the binary representation of a floating point number.
153 
154 Typedef members:
155 
156   bits -- the target type when copying the leading bytes of a floating
157       point number. It is a typedef for uint32_t or uint64_t.
158 
159   method -- tells us whether all bytes are copied or not.
160       It is a typedef for ieee_copy_all_bits_tag or ieee_copy_leading_bits_tag.
161 
162 Static data members:
163 
164   sign, exponent, flag, significand -- bit masks that give the meaning of the
165   bits in the leading bytes.
166 
167 Static function members:
168 
169   get_bits(), set_bits() -- provide access to the leading bytes.
170 
171 */
172 
173 // ieee_tag version, float (32 bits) -----------------------------------------------
174 
175 #ifndef BOOST_FPCLASSIFY_VAX_FORMAT
176 
177 template<> struct fp_traits_non_native<float, single_precision>
178 {
179     typedef ieee_copy_all_bits_tag method;
180 
181     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
182     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7f800000);
183     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0x00000000);
184     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x007fffff);
185 
186     typedef uint32_t bits;
get_bitsboost::math::detail::fp_traits_non_native187     static void get_bits(float x, uint32_t& a) { std::memcpy(&a, &x, 4); }
set_bitsboost::math::detail::fp_traits_non_native188     static void set_bits(float& x, uint32_t a) { std::memcpy(&x, &a, 4); }
189 };
190 
191 // ieee_tag version, double (64 bits) ----------------------------------------------
192 
193 #if defined(BOOST_NO_INT64_T) || defined(BOOST_NO_INCLASS_MEMBER_INITIALIZATION) \
194    || defined(__BORLANDC__) || defined(__CODEGEAR__)
195 
196 template<> struct fp_traits_non_native<double, double_precision>
197 {
198     typedef ieee_copy_leading_bits_tag method;
199 
200     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
201     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7ff00000);
202     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0);
203     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x000fffff);
204 
205     typedef uint32_t bits;
206 
get_bitsboost::math::detail::fp_traits_non_native207     static void get_bits(double x, uint32_t& a)
208     {
209         std::memcpy(&a, reinterpret_cast<const unsigned char*>(&x) + offset_, 4);
210     }
211 
set_bitsboost::math::detail::fp_traits_non_native212     static void set_bits(double& x, uint32_t a)
213     {
214         std::memcpy(reinterpret_cast<unsigned char*>(&x) + offset_, &a, 4);
215     }
216 
217 private:
218 
219 #if defined(BOOST_BIG_ENDIAN)
220     BOOST_STATIC_CONSTANT(int, offset_ = 0);
221 #elif defined(BOOST_LITTLE_ENDIAN)
222     BOOST_STATIC_CONSTANT(int, offset_ = 4);
223 #else
224     BOOST_STATIC_ASSERT(false);
225 #endif
226 };
227 
228 //..............................................................................
229 
230 #else
231 
232 template<> struct fp_traits_non_native<double, double_precision>
233 {
234     typedef ieee_copy_all_bits_tag method;
235 
236     static const uint64_t sign     = ((uint64_t)0x80000000u) << 32;
237     static const uint64_t exponent = ((uint64_t)0x7ff00000) << 32;
238     static const uint64_t flag     = 0;
239     static const uint64_t significand
240         = (((uint64_t)0x000fffff) << 32) + ((uint64_t)0xffffffffu);
241 
242     typedef uint64_t bits;
get_bitsboost::math::detail::fp_traits_non_native243     static void get_bits(double x, uint64_t& a) { std::memcpy(&a, &x, 8); }
set_bitsboost::math::detail::fp_traits_non_native244     static void set_bits(double& x, uint64_t a) { std::memcpy(&x, &a, 8); }
245 };
246 
247 #endif
248 
249 #endif  // #ifndef BOOST_FPCLASSIFY_VAX_FORMAT
250 
251 // long double (64 bits) -------------------------------------------------------
252 
253 #if defined(BOOST_NO_INT64_T) || defined(BOOST_NO_INCLASS_MEMBER_INITIALIZATION)\
254    || defined(__BORLANDC__) || defined(__CODEGEAR__)
255 
256 template<> struct fp_traits_non_native<long double, double_precision>
257 {
258     typedef ieee_copy_leading_bits_tag method;
259 
260     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
261     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7ff00000);
262     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0);
263     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x000fffff);
264 
265     typedef uint32_t bits;
266 
get_bitsboost::math::detail::fp_traits_non_native267     static void get_bits(long double x, uint32_t& a)
268     {
269         std::memcpy(&a, reinterpret_cast<const unsigned char*>(&x) + offset_, 4);
270     }
271 
set_bitsboost::math::detail::fp_traits_non_native272     static void set_bits(long double& x, uint32_t a)
273     {
274         std::memcpy(reinterpret_cast<unsigned char*>(&x) + offset_, &a, 4);
275     }
276 
277 private:
278 
279 #if defined(BOOST_BIG_ENDIAN)
280     BOOST_STATIC_CONSTANT(int, offset_ = 0);
281 #elif defined(BOOST_LITTLE_ENDIAN)
282     BOOST_STATIC_CONSTANT(int, offset_ = 4);
283 #else
284     BOOST_STATIC_ASSERT(false);
285 #endif
286 };
287 
288 //..............................................................................
289 
290 #else
291 
292 template<> struct fp_traits_non_native<long double, double_precision>
293 {
294     typedef ieee_copy_all_bits_tag method;
295 
296     static const uint64_t sign     = (uint64_t)0x80000000u << 32;
297     static const uint64_t exponent = (uint64_t)0x7ff00000 << 32;
298     static const uint64_t flag     = 0;
299     static const uint64_t significand
300         = ((uint64_t)0x000fffff << 32) + (uint64_t)0xffffffffu;
301 
302     typedef uint64_t bits;
get_bitsboost::math::detail::fp_traits_non_native303     static void get_bits(long double x, uint64_t& a) { std::memcpy(&a, &x, 8); }
set_bitsboost::math::detail::fp_traits_non_native304     static void set_bits(long double& x, uint64_t a) { std::memcpy(&x, &a, 8); }
305 };
306 
307 #endif
308 
309 
310 // long double (>64 bits), x86 and x64 -----------------------------------------
311 
312 #if defined(__i386) || defined(__i386__) || defined(_M_IX86) \
313     || defined(__amd64) || defined(__amd64__)  || defined(_M_AMD64) \
314     || defined(__x86_64) || defined(__x86_64__) || defined(_M_X64)
315 
316 // Intel extended double precision format (80 bits)
317 
318 template<>
319 struct fp_traits_non_native<long double, extended_double_precision>
320 {
321     typedef ieee_copy_leading_bits_tag method;
322 
323     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
324     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7fff0000);
325     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0x00008000);
326     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x00007fff);
327 
328     typedef uint32_t bits;
329 
get_bitsboost::math::detail::fp_traits_non_native330     static void get_bits(long double x, uint32_t& a)
331     {
332         std::memcpy(&a, reinterpret_cast<const unsigned char*>(&x) + 6, 4);
333     }
334 
set_bitsboost::math::detail::fp_traits_non_native335     static void set_bits(long double& x, uint32_t a)
336     {
337         std::memcpy(reinterpret_cast<unsigned char*>(&x) + 6, &a, 4);
338     }
339 };
340 
341 
342 // long double (>64 bits), Itanium ---------------------------------------------
343 
344 #elif defined(__ia64) || defined(__ia64__) || defined(_M_IA64)
345 
346 // The floating point format is unknown at compile time
347 // No template specialization is provided.
348 // The generic_tag definition is used.
349 
350 // The Itanium supports both
351 // the Intel extended double precision format (80 bits) and
352 // the IEEE extended double precision format with 15 exponent bits (128 bits).
353 
354 
355 // long double (>64 bits), PowerPC ---------------------------------------------
356 
357 #elif defined(__powerpc) || defined(__powerpc__) || defined(__POWERPC__) \
358     || defined(__ppc) || defined(__ppc__) || defined(__PPC__)
359 
360 // PowerPC extended double precision format (128 bits)
361 
362 template<>
363 struct fp_traits_non_native<long double, extended_double_precision>
364 {
365     typedef ieee_copy_leading_bits_tag method;
366 
367     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
368     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7ff00000);
369     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0x00000000);
370     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x000fffff);
371 
372     typedef uint32_t bits;
373 
get_bitsboost::math::detail::fp_traits_non_native374     static void get_bits(long double x, uint32_t& a)
375     {
376         std::memcpy(&a, reinterpret_cast<const unsigned char*>(&x) + offset_, 4);
377     }
378 
set_bitsboost::math::detail::fp_traits_non_native379     static void set_bits(long double& x, uint32_t a)
380     {
381         std::memcpy(reinterpret_cast<unsigned char*>(&x) + offset_, &a, 4);
382     }
383 
384 private:
385 
386 #if defined(BOOST_BIG_ENDIAN)
387     BOOST_STATIC_CONSTANT(int, offset_ = 0);
388 #elif defined(BOOST_LITTLE_ENDIAN)
389     BOOST_STATIC_CONSTANT(int, offset_ = 12);
390 #else
391     BOOST_STATIC_ASSERT(false);
392 #endif
393 };
394 
395 
396 // long double (>64 bits), Motorola 68K ----------------------------------------
397 
398 #elif defined(__m68k) || defined(__m68k__) \
399     || defined(__mc68000) || defined(__mc68000__) \
400 
401 // Motorola extended double precision format (96 bits)
402 
403 // It is the same format as the Intel extended double precision format,
404 // except that 1) it is big-endian, 2) the 3rd and 4th byte are padding, and
405 // 3) the flag bit is not set for infinity
406 
407 template<>
408 struct fp_traits_non_native<long double, extended_double_precision>
409 {
410     typedef ieee_copy_leading_bits_tag method;
411 
412     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
413     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7fff0000);
414     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0x00008000);
415     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x00007fff);
416 
417     // copy 1st, 2nd, 5th and 6th byte. 3rd and 4th byte are padding.
418 
419     typedef uint32_t bits;
420 
get_bitsboost::math::detail::fp_traits_non_native421     static void get_bits(long double x, uint32_t& a)
422     {
423         std::memcpy(&a, &x, 2);
424         std::memcpy(reinterpret_cast<unsigned char*>(&a) + 2,
425                reinterpret_cast<const unsigned char*>(&x) + 4, 2);
426     }
427 
set_bitsboost::math::detail::fp_traits_non_native428     static void set_bits(long double& x, uint32_t a)
429     {
430         std::memcpy(&x, &a, 2);
431         std::memcpy(reinterpret_cast<unsigned char*>(&x) + 4,
432                reinterpret_cast<const unsigned char*>(&a) + 2, 2);
433     }
434 };
435 
436 
437 // long double (>64 bits), All other processors --------------------------------
438 
439 #else
440 
441 // IEEE extended double precision format with 15 exponent bits (128 bits)
442 
443 template<>
444 struct fp_traits_non_native<long double, extended_double_precision>
445 {
446     typedef ieee_copy_leading_bits_tag method;
447 
448     BOOST_STATIC_CONSTANT(uint32_t, sign        = 0x80000000u);
449     BOOST_STATIC_CONSTANT(uint32_t, exponent    = 0x7fff0000);
450     BOOST_STATIC_CONSTANT(uint32_t, flag        = 0x00000000);
451     BOOST_STATIC_CONSTANT(uint32_t, significand = 0x0000ffff);
452 
453     typedef uint32_t bits;
454 
get_bitsboost::math::detail::fp_traits_non_native455     static void get_bits(long double x, uint32_t& a)
456     {
457         std::memcpy(&a, reinterpret_cast<const unsigned char*>(&x) + offset_, 4);
458     }
459 
set_bitsboost::math::detail::fp_traits_non_native460     static void set_bits(long double& x, uint32_t a)
461     {
462         std::memcpy(reinterpret_cast<unsigned char*>(&x) + offset_, &a, 4);
463     }
464 
465 private:
466 
467 #if defined(BOOST_BIG_ENDIAN)
468     BOOST_STATIC_CONSTANT(int, offset_ = 0);
469 #elif defined(BOOST_LITTLE_ENDIAN)
470     BOOST_STATIC_CONSTANT(int, offset_ = 12);
471 #else
472     BOOST_STATIC_ASSERT(false);
473 #endif
474 };
475 
476 #endif
477 
478 //------------------------------------------------------------------------------
479 
480 // size_to_precision is a type switch for converting a C++ floating point type
481 // to the corresponding precision type.
482 
483 template<int n, bool fp> struct size_to_precision
484 {
485    typedef unknown_precision type;
486 };
487 
488 template<> struct size_to_precision<4, true>
489 {
490     typedef single_precision type;
491 };
492 
493 template<> struct size_to_precision<8, true>
494 {
495     typedef double_precision type;
496 };
497 
498 template<> struct size_to_precision<10, true>
499 {
500     typedef extended_double_precision type;
501 };
502 
503 template<> struct size_to_precision<12, true>
504 {
505     typedef extended_double_precision type;
506 };
507 
508 template<> struct size_to_precision<16, true>
509 {
510     typedef extended_double_precision type;
511 };
512 
513 //------------------------------------------------------------------------------
514 //
515 // Figure out whether to use native classification functions based on
516 // whether T is a built in floating point type or not:
517 //
518 template <class T>
519 struct select_native
520 {
521     typedef BOOST_DEDUCED_TYPENAME size_to_precision<sizeof(T), ::boost::is_floating_point<T>::value>::type precision;
522     typedef fp_traits_non_native<T, precision> type;
523 };
524 template<>
525 struct select_native<float>
526 {
527     typedef fp_traits_native<float> type;
528 };
529 template<>
530 struct select_native<double>
531 {
532     typedef fp_traits_native<double> type;
533 };
534 template<>
535 struct select_native<long double>
536 {
537     typedef fp_traits_native<long double> type;
538 };
539 
540 //------------------------------------------------------------------------------
541 
542 // fp_traits is a type switch that selects the right fp_traits_non_native
543 
544 #if (defined(BOOST_MATH_USE_C99) && !(defined(__GNUC__) && (__GNUC__ < 4))) \
545    && !defined(__hpux) \
546    && !defined(__DECCXX)\
547    && !defined(__osf__) \
548    && !defined(__SGI_STL_PORT) && !defined(_STLPORT_VERSION)\
549    && !defined(BOOST_MATH_DISABLE_STD_FPCLASSIFY)
550 #  define BOOST_MATH_USE_STD_FPCLASSIFY
551 #endif
552 
553 template<class T> struct fp_traits
554 {
555     typedef BOOST_DEDUCED_TYPENAME size_to_precision<sizeof(T), ::boost::is_floating_point<T>::value>::type precision;
556 #if defined(BOOST_MATH_USE_STD_FPCLASSIFY) && !defined(BOOST_MATH_DISABLE_STD_FPCLASSIFY)
557     typedef typename select_native<T>::type type;
558 #else
559     typedef fp_traits_non_native<T, precision> type;
560 #endif
561     typedef fp_traits_non_native<T, precision> sign_change_type;
562 };
563 
564 //------------------------------------------------------------------------------
565 
566 }   // namespace detail
567 }   // namespace math
568 }   // namespace boost
569 
570 #endif
571