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Comparing libecb/ecb.h (file contents):
Revision 1.42 by root, Sun Jun 12 08:14:03 2011 UTC vs.
Revision 1.129 by root, Thu Mar 20 22:04:29 2014 UTC

1/* 1/*
2 * libecb - http://software.schmorp.de/pkg/libecb 2 * libecb - http://software.schmorp.de/pkg/libecb
3 * 3 *
4 * Copyright (©) 2009-2011 Marc Alexander Lehmann <libecb@schmorp.de> 4 * Copyright (©) 2009-2014 Marc Alexander Lehmann <libecb@schmorp.de>
5 * Copyright (©) 2011 Emanuele Giaquinta 5 * Copyright (©) 2011 Emanuele Giaquinta
6 * All rights reserved. 6 * All rights reserved.
7 * 7 *
8 * Redistribution and use in source and binary forms, with or without modifica- 8 * Redistribution and use in source and binary forms, with or without modifica-
9 * tion, are permitted provided that the following conditions are met: 9 * tion, are permitted provided that the following conditions are met:
28 */ 28 */
29 29
30#ifndef ECB_H 30#ifndef ECB_H
31#define ECB_H 31#define ECB_H
32 32
33/* 16 bits major, 16 bits minor */
34#define ECB_VERSION 0x00010003
35
36#ifdef _WIN32
37 typedef signed char int8_t;
38 typedef unsigned char uint8_t;
39 typedef signed short int16_t;
40 typedef unsigned short uint16_t;
41 typedef signed int int32_t;
42 typedef unsigned int uint32_t;
43 #if __GNUC__
44 typedef signed long long int64_t;
45 typedef unsigned long long uint64_t;
46 #else /* _MSC_VER || __BORLANDC__ */
47 typedef signed __int64 int64_t;
48 typedef unsigned __int64 uint64_t;
49 #endif
50 #ifdef _WIN64
51 #define ECB_PTRSIZE 8
52 typedef uint64_t uintptr_t;
53 typedef int64_t intptr_t;
54 #else
55 #define ECB_PTRSIZE 4
56 typedef uint32_t uintptr_t;
57 typedef int32_t intptr_t;
58 #endif
59#else
33#include <inttypes.h> 60 #include <inttypes.h>
61 #if UINTMAX_MAX > 0xffffffffU
62 #define ECB_PTRSIZE 8
63 #else
64 #define ECB_PTRSIZE 4
65 #endif
66#endif
67
68/* work around x32 idiocy by defining proper macros */
69#if __amd64 || __x86_64 || _M_AMD64 || _M_X64
70 #if _ILP32
71 #define ECB_AMD64_X32 1
72 #else
73 #define ECB_AMD64 1
74 #endif
75#endif
34 76
35/* many compilers define _GNUC_ to some versions but then only implement 77/* many compilers define _GNUC_ to some versions but then only implement
36 * what their idiot authors think are the "more important" extensions, 78 * what their idiot authors think are the "more important" extensions,
37 * causing enourmous grief in return for some better fake benchmark numbers. 79 * causing enormous grief in return for some better fake benchmark numbers.
38 * or so. 80 * or so.
39 * we try to detect these and simply assume they are not gcc - if they have 81 * we try to detect these and simply assume they are not gcc - if they have
40 * an issue with that they should have done it right in the first place. 82 * an issue with that they should have done it right in the first place.
41 */ 83 */
42#ifndef ECB_GCC_VERSION 84#ifndef ECB_GCC_VERSION
43 #if defined(__INTEL_COMPILER) || defined(__SUNPRO_C) || defined(__llvm__) 85 #if !defined __GNUC_MINOR__ || defined __INTEL_COMPILER || defined __SUNPRO_C || defined __SUNPRO_CC || defined __llvm__ || defined __clang__
44 #define ECB_GCC_VERSION(major,minor) 0 86 #define ECB_GCC_VERSION(major,minor) 0
45 #else 87 #else
46 #define ECB_GCC_VERSION(major,minor) (__GNUC__ > (major) || (__GNUC__ == (major) && __GNUC_MINOR__ >= (minor))) 88 #define ECB_GCC_VERSION(major,minor) (__GNUC__ > (major) || (__GNUC__ == (major) && __GNUC_MINOR__ >= (minor)))
47 #endif 89 #endif
48#endif 90#endif
49 91
92#define ECB_CPP (__cplusplus+0)
93#define ECB_CPP11 (__cplusplus >= 201103L)
94
95#if ECB_CPP
96 #define ECB_C 0
97 #define ECB_STDC_VERSION 0
98#else
99 #define ECB_C 1
100 #define ECB_STDC_VERSION __STDC_VERSION__
101#endif
102
50#define ECB_C99 (__STDC_VERSION__ >= 199901L) 103#define ECB_C99 (ECB_STDC_VERSION >= 199901L)
104#define ECB_C11 (ECB_STDC_VERSION >= 201112L)
105
106#if ECB_CPP
107 #define ECB_EXTERN_C extern "C"
108 #define ECB_EXTERN_C_BEG ECB_EXTERN_C {
109 #define ECB_EXTERN_C_END }
110#else
111 #define ECB_EXTERN_C extern
112 #define ECB_EXTERN_C_BEG
113 #define ECB_EXTERN_C_END
114#endif
115
116/*****************************************************************************/
117
118/* ECB_NO_THREADS - ecb is not used by multiple threads, ever */
119/* ECB_NO_SMP - ecb might be used in multiple threads, but only on a single cpu */
120
121#if ECB_NO_THREADS
122 #define ECB_NO_SMP 1
123#endif
124
125#if ECB_NO_SMP
126 #define ECB_MEMORY_FENCE do { } while (0)
127#endif
128
129#ifndef ECB_MEMORY_FENCE
130 #if ECB_GCC_VERSION(2,5) || defined __INTEL_COMPILER || (__llvm__ && __GNUC__) || __SUNPRO_C >= 0x5110 || __SUNPRO_CC >= 0x5110
131 #if __i386 || __i386__
132 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("lock; orb $0, -1(%%esp)" : : : "memory")
133 #define ECB_MEMORY_FENCE_ACQUIRE __asm__ __volatile__ ("" : : : "memory")
134 #define ECB_MEMORY_FENCE_RELEASE __asm__ __volatile__ ("")
135 #elif __amd64 || __amd64__ || __x86_64 || __x86_64__
136 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("mfence" : : : "memory")
137 #define ECB_MEMORY_FENCE_ACQUIRE __asm__ __volatile__ ("" : : : "memory")
138 #define ECB_MEMORY_FENCE_RELEASE __asm__ __volatile__ ("")
139 #elif __powerpc__ || __ppc__ || __powerpc64__ || __ppc64__
140 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("sync" : : : "memory")
141 #elif defined __ARM_ARCH_6__ || defined __ARM_ARCH_6J__ \
142 || defined __ARM_ARCH_6K__ || defined __ARM_ARCH_6ZK__
143 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("mcr p15,0,%0,c7,c10,5" : : "r" (0) : "memory")
144 #elif defined __ARM_ARCH_7__ || defined __ARM_ARCH_7A__ \
145 || defined __ARM_ARCH_7M__ || defined __ARM_ARCH_7R__
146 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("dmb" : : : "memory")
147 #elif __aarch64__
148 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("dmb ish" : : : "memory")
149 #elif (__sparc || __sparc__) && !__sparcv8
150 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("membar #LoadStore | #LoadLoad | #StoreStore | #StoreLoad" : : : "memory")
151 #define ECB_MEMORY_FENCE_ACQUIRE __asm__ __volatile__ ("membar #LoadStore | #LoadLoad" : : : "memory")
152 #define ECB_MEMORY_FENCE_RELEASE __asm__ __volatile__ ("membar #LoadStore | #StoreStore")
153 #elif defined __s390__ || defined __s390x__
154 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("bcr 15,0" : : : "memory")
155 #elif defined __mips__
156 /* GNU/Linux emulates sync on mips1 architectures, so we force its use */
157 /* anybody else who still uses mips1 is supposed to send in their version, with detection code. */
158 #define ECB_MEMORY_FENCE __asm__ __volatile__ (".set mips2; sync; .set mips0" : : : "memory")
159 #elif defined __alpha__
160 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("mb" : : : "memory")
161 #elif defined __hppa__
162 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("" : : : "memory")
163 #define ECB_MEMORY_FENCE_RELEASE __asm__ __volatile__ ("")
164 #elif defined __ia64__
165 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("mf" : : : "memory")
166 #elif defined __m68k__
167 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("" : : : "memory")
168 #elif defined __m88k__
169 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("tb1 0,%%r0,128" : : : "memory")
170 #elif defined __sh__
171 #define ECB_MEMORY_FENCE __asm__ __volatile__ ("" : : : "memory")
172 #endif
173 #endif
174#endif
175
176#ifndef ECB_MEMORY_FENCE
177 #if ECB_GCC_VERSION(4,7)
178 /* see comment below (stdatomic.h) about the C11 memory model. */
179 #define ECB_MEMORY_FENCE __atomic_thread_fence (__ATOMIC_SEQ_CST)
180 #define ECB_MEMORY_FENCE_ACQUIRE __atomic_thread_fence (__ATOMIC_ACQUIRE)
181 #define ECB_MEMORY_FENCE_RELEASE __atomic_thread_fence (__ATOMIC_RELEASE)
182
183 /* The __has_feature syntax from clang is so misdesigned that we cannot use it
184 * without risking compile time errors with other compilers. We *could*
185 * define our own ecb_clang_has_feature, but I just can't be bothered to work
186 * around this shit time and again.
187 * #elif defined __clang && __has_feature (cxx_atomic)
188 * // see comment below (stdatomic.h) about the C11 memory model.
189 * #define ECB_MEMORY_FENCE __c11_atomic_thread_fence (__ATOMIC_SEQ_CST)
190 * #define ECB_MEMORY_FENCE_ACQUIRE __c11_atomic_thread_fence (__ATOMIC_ACQUIRE)
191 * #define ECB_MEMORY_FENCE_RELEASE __c11_atomic_thread_fence (__ATOMIC_RELEASE)
192 */
193
194 #elif ECB_GCC_VERSION(4,4) || defined __INTEL_COMPILER || defined __clang__
195 #define ECB_MEMORY_FENCE __sync_synchronize ()
196 #elif _MSC_VER >= 1500 /* VC++ 2008 */
197 /* apparently, microsoft broke all the memory barrier stuff in Visual Studio 2008... */
198 #pragma intrinsic(_ReadBarrier,_WriteBarrier,_ReadWriteBarrier)
199 #define ECB_MEMORY_FENCE _ReadWriteBarrier (); MemoryBarrier()
200 #define ECB_MEMORY_FENCE_ACQUIRE _ReadWriteBarrier (); MemoryBarrier() /* according to msdn, _ReadBarrier is not a load fence */
201 #define ECB_MEMORY_FENCE_RELEASE _WriteBarrier (); MemoryBarrier()
202 #elif _MSC_VER >= 1400 /* VC++ 2005 */
203 #pragma intrinsic(_ReadBarrier,_WriteBarrier,_ReadWriteBarrier)
204 #define ECB_MEMORY_FENCE _ReadWriteBarrier ()
205 #define ECB_MEMORY_FENCE_ACQUIRE _ReadWriteBarrier () /* according to msdn, _ReadBarrier is not a load fence */
206 #define ECB_MEMORY_FENCE_RELEASE _WriteBarrier ()
207 #elif defined _WIN32
208 #include <WinNT.h>
209 #define ECB_MEMORY_FENCE MemoryBarrier () /* actually just xchg on x86... scary */
210 #elif __SUNPRO_C >= 0x5110 || __SUNPRO_CC >= 0x5110
211 #include <mbarrier.h>
212 #define ECB_MEMORY_FENCE __machine_rw_barrier ()
213 #define ECB_MEMORY_FENCE_ACQUIRE __machine_r_barrier ()
214 #define ECB_MEMORY_FENCE_RELEASE __machine_w_barrier ()
215 #elif __xlC__
216 #define ECB_MEMORY_FENCE __sync ()
217 #endif
218#endif
219
220#ifndef ECB_MEMORY_FENCE
221 #if ECB_C11 && !defined __STDC_NO_ATOMICS__
222 /* we assume that these memory fences work on all variables/all memory accesses, */
223 /* not just C11 atomics and atomic accesses */
224 #include <stdatomic.h>
225 /* Unfortunately, neither gcc 4.7 nor clang 3.1 generate any instructions for */
226 /* any fence other than seq_cst, which isn't very efficient for us. */
227 /* Why that is, we don't know - either the C11 memory model is quite useless */
228 /* for most usages, or gcc and clang have a bug */
229 /* I *currently* lean towards the latter, and inefficiently implement */
230 /* all three of ecb's fences as a seq_cst fence */
231 /* Update, gcc-4.8 generates mfence for all c++ fences, but nothing */
232 /* for all __atomic_thread_fence's except seq_cst */
233 #define ECB_MEMORY_FENCE atomic_thread_fence (memory_order_seq_cst)
234 #endif
235#endif
236
237#ifndef ECB_MEMORY_FENCE
238 #if !ECB_AVOID_PTHREADS
239 /*
240 * if you get undefined symbol references to pthread_mutex_lock,
241 * or failure to find pthread.h, then you should implement
242 * the ECB_MEMORY_FENCE operations for your cpu/compiler
243 * OR provide pthread.h and link against the posix thread library
244 * of your system.
245 */
246 #include <pthread.h>
247 #define ECB_NEEDS_PTHREADS 1
248 #define ECB_MEMORY_FENCE_NEEDS_PTHREADS 1
249
250 static pthread_mutex_t ecb_mf_lock = PTHREAD_MUTEX_INITIALIZER;
251 #define ECB_MEMORY_FENCE do { pthread_mutex_lock (&ecb_mf_lock); pthread_mutex_unlock (&ecb_mf_lock); } while (0)
252 #endif
253#endif
254
255#if !defined ECB_MEMORY_FENCE_ACQUIRE && defined ECB_MEMORY_FENCE
256 #define ECB_MEMORY_FENCE_ACQUIRE ECB_MEMORY_FENCE
257#endif
258
259#if !defined ECB_MEMORY_FENCE_RELEASE && defined ECB_MEMORY_FENCE
260 #define ECB_MEMORY_FENCE_RELEASE ECB_MEMORY_FENCE
261#endif
262
263/*****************************************************************************/
51 264
52#if __cplusplus 265#if __cplusplus
53 #define ECB_INLINE static inline 266 #define ecb_inline static inline
54#elif ECB_GCC_VERSION(2,5) 267#elif ECB_GCC_VERSION(2,5)
55 #define ECB_INLINE static __inline__ 268 #define ecb_inline static __inline__
56#elif ECB_C99 269#elif ECB_C99
57 #define ECB_INLINE static inline 270 #define ecb_inline static inline
58#else 271#else
59 #define ECB_INLINE static 272 #define ecb_inline static
60#endif 273#endif
61 274
62#if ECB_GCC_VERSION(3,3) 275#if ECB_GCC_VERSION(3,3)
63 #define ecb_restrict __restrict__ 276 #define ecb_restrict __restrict__
64#elif ECB_C99 277#elif ECB_C99
72#define ECB_CONCAT_(a, b) a ## b 285#define ECB_CONCAT_(a, b) a ## b
73#define ECB_CONCAT(a, b) ECB_CONCAT_(a, b) 286#define ECB_CONCAT(a, b) ECB_CONCAT_(a, b)
74#define ECB_STRINGIFY_(a) # a 287#define ECB_STRINGIFY_(a) # a
75#define ECB_STRINGIFY(a) ECB_STRINGIFY_(a) 288#define ECB_STRINGIFY(a) ECB_STRINGIFY_(a)
76 289
77#define ecb_function_ ECB_INLINE 290#define ecb_function_ ecb_inline
78 291
79#if ECB_GCC_VERSION(3,1) 292#if ECB_GCC_VERSION(3,1)
80 #define ecb_attribute(attrlist) __attribute__(attrlist) 293 #define ecb_attribute(attrlist) __attribute__(attrlist)
81 #define ecb_is_constant(expr) __builtin_constant_p (expr) 294 #define ecb_is_constant(expr) __builtin_constant_p (expr)
82 #define ecb_expect(expr,value) __builtin_expect ((expr),(value)) 295 #define ecb_expect(expr,value) __builtin_expect ((expr),(value))
83 #define ecb_prefetch(addr,rw,locality) __builtin_prefetch (addr, rw, locality) 296 #define ecb_prefetch(addr,rw,locality) __builtin_prefetch (addr, rw, locality)
84#else 297#else
85 #define ecb_attribute(attrlist) 298 #define ecb_attribute(attrlist)
299
300 /* possible C11 impl for integral types
301 typedef struct ecb_is_constant_struct ecb_is_constant_struct;
302 #define ecb_is_constant(expr) _Generic ((1 ? (struct ecb_is_constant_struct *)0 : (void *)((expr) - (expr)), ecb_is_constant_struct *: 0, default: 1)) */
303
86 #define ecb_is_constant(expr) 0 304 #define ecb_is_constant(expr) 0
87 #define ecb_expect(expr,value) (expr) 305 #define ecb_expect(expr,value) (expr)
88 #define ecb_prefetch(addr,rw,locality) 306 #define ecb_prefetch(addr,rw,locality)
89#endif 307#endif
90 308
94#elif ECB_GCC_VERSION(3,0) 312#elif ECB_GCC_VERSION(3,0)
95 #define ecb_decltype(x) __typeof(x) 313 #define ecb_decltype(x) __typeof(x)
96#endif 314#endif
97 315
98#define ecb_noinline ecb_attribute ((__noinline__)) 316#define ecb_noinline ecb_attribute ((__noinline__))
99#define ecb_noreturn ecb_attribute ((__noreturn__))
100#define ecb_unused ecb_attribute ((__unused__)) 317#define ecb_unused ecb_attribute ((__unused__))
101#define ecb_const ecb_attribute ((__const__)) 318#define ecb_const ecb_attribute ((__const__))
102#define ecb_pure ecb_attribute ((__pure__)) 319#define ecb_pure ecb_attribute ((__pure__))
320
321#if ECB_C11
322 #define ecb_noreturn _Noreturn
323#else
324 #define ecb_noreturn ecb_attribute ((__noreturn__))
325#endif
103 326
104#if ECB_GCC_VERSION(4,3) 327#if ECB_GCC_VERSION(4,3)
105 #define ecb_artificial ecb_attribute ((__artificial__)) 328 #define ecb_artificial ecb_attribute ((__artificial__))
106 #define ecb_hot ecb_attribute ((__hot__)) 329 #define ecb_hot ecb_attribute ((__hot__))
107 #define ecb_cold ecb_attribute ((__cold__)) 330 #define ecb_cold ecb_attribute ((__cold__))
120#define ecb_likely(expr) ecb_expect_true (expr) 343#define ecb_likely(expr) ecb_expect_true (expr)
121#define ecb_unlikely(expr) ecb_expect_false (expr) 344#define ecb_unlikely(expr) ecb_expect_false (expr)
122 345
123/* count trailing zero bits and count # of one bits */ 346/* count trailing zero bits and count # of one bits */
124#if ECB_GCC_VERSION(3,4) 347#if ECB_GCC_VERSION(3,4)
348 /* we assume int == 32 bit, long == 32 or 64 bit and long long == 64 bit */
349 #define ecb_ld32(x) (__builtin_clz (x) ^ 31)
350 #define ecb_ld64(x) (__builtin_clzll (x) ^ 63)
125 #define ecb_ctz32(x) __builtin_ctz (x) 351 #define ecb_ctz32(x) __builtin_ctz (x)
352 #define ecb_ctz64(x) __builtin_ctzll (x)
126 #define ecb_popcount32(x) __builtin_popcount (x) 353 #define ecb_popcount32(x) __builtin_popcount (x)
354 /* no popcountll */
127#else 355#else
128 ecb_function_ int ecb_ctz32 (uint32_t x) ecb_const; 356 ecb_function_ int ecb_ctz32 (uint32_t x) ecb_const;
129 ecb_function_ int 357 ecb_function_ int
130 ecb_ctz32 (uint32_t x) 358 ecb_ctz32 (uint32_t x)
131 { 359 {
132 int r = 0; 360 int r = 0;
133 361
134 x &= -x; /* this isolates the lowest bit */ 362 x &= ~x + 1; /* this isolates the lowest bit */
135 363
364#if ECB_branchless_on_i386
365 r += !!(x & 0xaaaaaaaa) << 0;
366 r += !!(x & 0xcccccccc) << 1;
367 r += !!(x & 0xf0f0f0f0) << 2;
368 r += !!(x & 0xff00ff00) << 3;
369 r += !!(x & 0xffff0000) << 4;
370#else
136 if (x & 0xaaaaaaaa) r += 1; 371 if (x & 0xaaaaaaaa) r += 1;
137 if (x & 0xcccccccc) r += 2; 372 if (x & 0xcccccccc) r += 2;
138 if (x & 0xf0f0f0f0) r += 4; 373 if (x & 0xf0f0f0f0) r += 4;
139 if (x & 0xff00ff00) r += 8; 374 if (x & 0xff00ff00) r += 8;
140 if (x & 0xffff0000) r += 16; 375 if (x & 0xffff0000) r += 16;
376#endif
141 377
142 return r; 378 return r;
379 }
380
381 ecb_function_ int ecb_ctz64 (uint64_t x) ecb_const;
382 ecb_function_ int
383 ecb_ctz64 (uint64_t x)
384 {
385 int shift = x & 0xffffffffU ? 0 : 32;
386 return ecb_ctz32 (x >> shift) + shift;
143 } 387 }
144 388
145 ecb_function_ int ecb_popcount32 (uint32_t x) ecb_const; 389 ecb_function_ int ecb_popcount32 (uint32_t x) ecb_const;
146 ecb_function_ int 390 ecb_function_ int
147 ecb_popcount32 (uint32_t x) 391 ecb_popcount32 (uint32_t x)
151 x = ((x >> 4) + x) & 0x0f0f0f0f; 395 x = ((x >> 4) + x) & 0x0f0f0f0f;
152 x *= 0x01010101; 396 x *= 0x01010101;
153 397
154 return x >> 24; 398 return x >> 24;
155 } 399 }
400
401 ecb_function_ int ecb_ld32 (uint32_t x) ecb_const;
402 ecb_function_ int ecb_ld32 (uint32_t x)
403 {
404 int r = 0;
405
406 if (x >> 16) { x >>= 16; r += 16; }
407 if (x >> 8) { x >>= 8; r += 8; }
408 if (x >> 4) { x >>= 4; r += 4; }
409 if (x >> 2) { x >>= 2; r += 2; }
410 if (x >> 1) { r += 1; }
411
412 return r;
413 }
414
415 ecb_function_ int ecb_ld64 (uint64_t x) ecb_const;
416 ecb_function_ int ecb_ld64 (uint64_t x)
417 {
418 int r = 0;
419
420 if (x >> 32) { x >>= 32; r += 32; }
421
422 return r + ecb_ld32 (x);
423 }
156#endif 424#endif
425
426ecb_function_ ecb_bool ecb_is_pot32 (uint32_t x) ecb_const;
427ecb_function_ ecb_bool ecb_is_pot32 (uint32_t x) { return !(x & (x - 1)); }
428ecb_function_ ecb_bool ecb_is_pot64 (uint64_t x) ecb_const;
429ecb_function_ ecb_bool ecb_is_pot64 (uint64_t x) { return !(x & (x - 1)); }
430
431ecb_function_ uint8_t ecb_bitrev8 (uint8_t x) ecb_const;
432ecb_function_ uint8_t ecb_bitrev8 (uint8_t x)
433{
434 return ( (x * 0x0802U & 0x22110U)
435 | (x * 0x8020U & 0x88440U)) * 0x10101U >> 16;
436}
437
438ecb_function_ uint16_t ecb_bitrev16 (uint16_t x) ecb_const;
439ecb_function_ uint16_t ecb_bitrev16 (uint16_t x)
440{
441 x = ((x >> 1) & 0x5555) | ((x & 0x5555) << 1);
442 x = ((x >> 2) & 0x3333) | ((x & 0x3333) << 2);
443 x = ((x >> 4) & 0x0f0f) | ((x & 0x0f0f) << 4);
444 x = ( x >> 8 ) | ( x << 8);
445
446 return x;
447}
448
449ecb_function_ uint32_t ecb_bitrev32 (uint32_t x) ecb_const;
450ecb_function_ uint32_t ecb_bitrev32 (uint32_t x)
451{
452 x = ((x >> 1) & 0x55555555) | ((x & 0x55555555) << 1);
453 x = ((x >> 2) & 0x33333333) | ((x & 0x33333333) << 2);
454 x = ((x >> 4) & 0x0f0f0f0f) | ((x & 0x0f0f0f0f) << 4);
455 x = ((x >> 8) & 0x00ff00ff) | ((x & 0x00ff00ff) << 8);
456 x = ( x >> 16 ) | ( x << 16);
457
458 return x;
459}
460
461/* popcount64 is only available on 64 bit cpus as gcc builtin */
462/* so for this version we are lazy */
463ecb_function_ int ecb_popcount64 (uint64_t x) ecb_const;
464ecb_function_ int
465ecb_popcount64 (uint64_t x)
466{
467 return ecb_popcount32 (x) + ecb_popcount32 (x >> 32);
468}
469
470ecb_inline uint8_t ecb_rotl8 (uint8_t x, unsigned int count) ecb_const;
471ecb_inline uint8_t ecb_rotr8 (uint8_t x, unsigned int count) ecb_const;
472ecb_inline uint16_t ecb_rotl16 (uint16_t x, unsigned int count) ecb_const;
473ecb_inline uint16_t ecb_rotr16 (uint16_t x, unsigned int count) ecb_const;
474ecb_inline uint32_t ecb_rotl32 (uint32_t x, unsigned int count) ecb_const;
475ecb_inline uint32_t ecb_rotr32 (uint32_t x, unsigned int count) ecb_const;
476ecb_inline uint64_t ecb_rotl64 (uint64_t x, unsigned int count) ecb_const;
477ecb_inline uint64_t ecb_rotr64 (uint64_t x, unsigned int count) ecb_const;
478
479ecb_inline uint8_t ecb_rotl8 (uint8_t x, unsigned int count) { return (x >> ( 8 - count)) | (x << count); }
480ecb_inline uint8_t ecb_rotr8 (uint8_t x, unsigned int count) { return (x << ( 8 - count)) | (x >> count); }
481ecb_inline uint16_t ecb_rotl16 (uint16_t x, unsigned int count) { return (x >> (16 - count)) | (x << count); }
482ecb_inline uint16_t ecb_rotr16 (uint16_t x, unsigned int count) { return (x << (16 - count)) | (x >> count); }
483ecb_inline uint32_t ecb_rotl32 (uint32_t x, unsigned int count) { return (x >> (32 - count)) | (x << count); }
484ecb_inline uint32_t ecb_rotr32 (uint32_t x, unsigned int count) { return (x << (32 - count)) | (x >> count); }
485ecb_inline uint64_t ecb_rotl64 (uint64_t x, unsigned int count) { return (x >> (64 - count)) | (x << count); }
486ecb_inline uint64_t ecb_rotr64 (uint64_t x, unsigned int count) { return (x << (64 - count)) | (x >> count); }
157 487
158#if ECB_GCC_VERSION(4,3) 488#if ECB_GCC_VERSION(4,3)
159 #define ecb_bswap32(x) __builtin_bswap32 (x)
160 #define ecb_bswap16(x) (__builtin_bswap32(x) >> 16) 489 #define ecb_bswap16(x) (__builtin_bswap32 (x) >> 16)
490 #define ecb_bswap32(x) __builtin_bswap32 (x)
491 #define ecb_bswap64(x) __builtin_bswap64 (x)
161#else 492#else
493 ecb_function_ uint16_t ecb_bswap16 (uint16_t x) ecb_const;
494 ecb_function_ uint16_t
495 ecb_bswap16 (uint16_t x)
496 {
497 return ecb_rotl16 (x, 8);
498 }
499
162 ecb_function_ uint32_t ecb_bswap32 (uint32_t x) ecb_const; 500 ecb_function_ uint32_t ecb_bswap32 (uint32_t x) ecb_const;
163 ecb_function_ uint32_t 501 ecb_function_ uint32_t
164 ecb_bswap32 (uint32_t x) 502 ecb_bswap32 (uint32_t x)
165 { 503 {
166 return (x >> 24) 504 return (((uint32_t)ecb_bswap16 (x)) << 16) | ecb_bswap16 (x >> 16);
167 | ((x >> 8) & 0x0000ff00)
168 | ((x << 8) & 0x00ff0000)
169 | (x << 24);
170 } 505 }
171 506
172 ecb_function_ uint32_t ecb_bswap16 (uint32_t x) ecb_const; 507 ecb_function_ uint64_t ecb_bswap64 (uint64_t x) ecb_const;
173 ecb_function_ uint32_t 508 ecb_function_ uint64_t
174 ecb_bswap16 (uint32_t x) 509 ecb_bswap64 (uint64_t x)
175 { 510 {
176 return ((x >> 8) & 0xff) 511 return (((uint64_t)ecb_bswap32 (x)) << 32) | ecb_bswap32 (x >> 32);
177 | ((x << 8) & 0x00ff0000)
178 | (x << 24);
179 } 512 }
180#endif 513#endif
181 514
182#if ECB_GCC_VERSION(4,5) 515#if ECB_GCC_VERSION(4,5)
183 #define ecb_unreachable() __builtin_unreachable () 516 #define ecb_unreachable() __builtin_unreachable ()
184#else 517#else
185 /* this seems to work fine, but gcc always emits a warning for it :/ */ 518 /* this seems to work fine, but gcc always emits a warning for it :/ */
186 ecb_function_ void ecb_unreachable (void) ecb_noreturn; 519 ecb_inline void ecb_unreachable (void) ecb_noreturn;
187 ecb_function_ void ecb_unreachable (void) { } 520 ecb_inline void ecb_unreachable (void) { }
188#endif 521#endif
189 522
190/* try to tell the compiler that some condition is definitely true */ 523/* try to tell the compiler that some condition is definitely true */
191#define ecb_assume(cond) do { if (!(cond)) ecb_unreachable (); } while (0) 524#define ecb_assume(cond) if (!(cond)) ecb_unreachable (); else 0
192 525
193ecb_function_ unsigned char ecb_byteorder_helper (void) ecb_const; 526ecb_inline unsigned char ecb_byteorder_helper (void) ecb_const;
194ecb_function_ unsigned char 527ecb_inline unsigned char
195ecb_byteorder_helper (void) 528ecb_byteorder_helper (void)
196{ 529{
197 const uint32_t u = 0x11223344; 530 /* the union code still generates code under pressure in gcc, */
198 return *(unsigned char *)&u; 531 /* but less than using pointers, and always seems to */
532 /* successfully return a constant. */
533 /* the reason why we have this horrible preprocessor mess */
534 /* is to avoid it in all cases, at least on common architectures */
535 /* or when using a recent enough gcc version (>= 4.6) */
536#if __i386 || __i386__ || _M_X86 || __amd64 || __amd64__ || _M_X64
537 return 0x44;
538#elif __BYTE_ORDER__ && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
539 return 0x44;
540#elif __BYTE_ORDER__ && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
541 return 0x11;
542#else
543 union
544 {
545 uint32_t i;
546 uint8_t c;
547 } u = { 0x11223344 };
548 return u.c;
549#endif
199} 550}
200 551
201ecb_function_ ecb_bool ecb_big_endian (void) ecb_const; 552ecb_inline ecb_bool ecb_big_endian (void) ecb_const;
202ecb_function_ ecb_bool ecb_big_endian (void) { return ecb_byteorder_helper () == 0x11; } 553ecb_inline ecb_bool ecb_big_endian (void) { return ecb_byteorder_helper () == 0x11; }
203ecb_function_ ecb_bool ecb_little_endian (void) ecb_const; 554ecb_inline ecb_bool ecb_little_endian (void) ecb_const;
204ecb_function_ ecb_bool ecb_little_endian (void) { return ecb_byteorder_helper () == 0x44; } 555ecb_inline ecb_bool ecb_little_endian (void) { return ecb_byteorder_helper () == 0x44; }
205 556
206#if ECB_GCC_VERSION(3,0) || ECB_C99 557#if ECB_GCC_VERSION(3,0) || ECB_C99
207 #define ecb_mod(m,n) ((m) % (n) + ((m) % (n) < 0 ? (n) : 0)) 558 #define ecb_mod(m,n) ((m) % (n) + ((m) % (n) < 0 ? (n) : 0))
208#else 559#else
209 #define ecb_mod(m,n) ((m) < 0 ? ((n) - 1 - ((-1 - (m)) % (n))) : ((m) % (n))) 560 #define ecb_mod(m,n) ((m) < 0 ? ((n) - 1 - ((-1 - (m)) % (n))) : ((m) % (n)))
561#endif
562
563#if __cplusplus
564 template<typename T>
565 static inline T ecb_div_rd (T val, T div)
566 {
567 return val < 0 ? - ((-val + div - 1) / div) : (val ) / div;
568 }
569 template<typename T>
570 static inline T ecb_div_ru (T val, T div)
571 {
572 return val < 0 ? - ((-val ) / div) : (val + div - 1) / div;
573 }
574#else
575 #define ecb_div_rd(val,div) ((val) < 0 ? - ((-(val) + (div) - 1) / (div)) : ((val) ) / (div))
576 #define ecb_div_ru(val,div) ((val) < 0 ? - ((-(val) ) / (div)) : ((val) + (div) - 1) / (div))
210#endif 577#endif
211 578
212#if ecb_cplusplus_does_not_suck 579#if ecb_cplusplus_does_not_suck
213 /* does not work for local types (http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2657.htm) */ 580 /* does not work for local types (http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2008/n2657.htm) */
214 template<typename T, int N> 581 template<typename T, int N>
218 } 585 }
219#else 586#else
220 #define ecb_array_length(name) (sizeof (name) / sizeof (name [0])) 587 #define ecb_array_length(name) (sizeof (name) / sizeof (name [0]))
221#endif 588#endif
222 589
223ECB_INLINE uint32_t ecb_rotr32 (uint32_t x, unsigned int count) ecb_const; 590/*******************************************************************************/
224ECB_INLINE uint32_t 591/* floating point stuff, can be disabled by defining ECB_NO_LIBM */
225ecb_rotr32 (uint32_t x, unsigned int count)
226{
227 return (x << (32 - count)) | (x >> count);
228}
229 592
230ECB_INLINE uint32_t ecb_rotl32 (uint32_t x, unsigned int count) ecb_const; 593/* basically, everything uses "ieee pure-endian" floating point numbers */
231ECB_INLINE uint32_t 594/* the only noteworthy exception is ancient armle, which uses order 43218765 */
232ecb_rotl32 (uint32_t x, unsigned int count) 595#if 0 \
233{ 596 || __i386 || __i386__ \
234 return (x >> (32 - count)) | (x << count); 597 || __amd64 || __amd64__ || __x86_64 || __x86_64__ \
235} 598 || __powerpc__ || __ppc__ || __powerpc64__ || __ppc64__ \
599 || defined __arm__ && defined __ARM_EABI__ \
600 || defined __s390__ || defined __s390x__ \
601 || defined __mips__ \
602 || defined __alpha__ \
603 || defined __hppa__ \
604 || defined __ia64__ \
605 || defined __m68k__ \
606 || defined __m88k__ \
607 || defined __sh__ \
608 || defined _M_IX86 || defined _M_AMD64 || defined _M_IA64
609 #define ECB_STDFP 1
610 #include <string.h> /* for memcpy */
611#else
612 #define ECB_STDFP 0
613#endif
236 614
615#ifndef ECB_NO_LIBM
616
617 #include <math.h> /* for frexp*, ldexp*, INFINITY, NAN */
618
619 /* only the oldest of old doesn't have this one. solaris. */
620 #ifdef INFINITY
621 #define ECB_INFINITY INFINITY
622 #else
623 #define ECB_INFINITY HUGE_VAL
237#endif 624 #endif
238 625
626 #ifdef NAN
627 #define ECB_NAN NAN
628 #else
629 #define ECB_NAN ECB_INFINITY
630 #endif
631
632 /* converts an ieee half/binary16 to a float */
633 ecb_function_ float ecb_binary16_to_float (uint16_t x) ecb_const;
634 ecb_function_ float
635 ecb_binary16_to_float (uint16_t x)
636 {
637 int e = (x >> 10) & 0x1f;
638 int m = x & 0x3ff;
639 float r;
640
641 if (!e ) r = ldexpf (m , -24);
642 else if (e != 31) r = ldexpf (m + 0x400, e - 25);
643 else if (m ) r = ECB_NAN;
644 else r = ECB_INFINITY;
645
646 return x & 0x8000 ? -r : r;
647 }
648
649 /* convert a float to ieee single/binary32 */
650 ecb_function_ uint32_t ecb_float_to_binary32 (float x) ecb_const;
651 ecb_function_ uint32_t
652 ecb_float_to_binary32 (float x)
653 {
654 uint32_t r;
655
656 #if ECB_STDFP
657 memcpy (&r, &x, 4);
658 #else
659 /* slow emulation, works for anything but -0 */
660 uint32_t m;
661 int e;
662
663 if (x == 0e0f ) return 0x00000000U;
664 if (x > +3.40282346638528860e+38f) return 0x7f800000U;
665 if (x < -3.40282346638528860e+38f) return 0xff800000U;
666 if (x != x ) return 0x7fbfffffU;
667
668 m = frexpf (x, &e) * 0x1000000U;
669
670 r = m & 0x80000000U;
671
672 if (r)
673 m = -m;
674
675 if (e <= -126)
676 {
677 m &= 0xffffffU;
678 m >>= (-125 - e);
679 e = -126;
680 }
681
682 r |= (e + 126) << 23;
683 r |= m & 0x7fffffU;
684 #endif
685
686 return r;
687 }
688
689 /* converts an ieee single/binary32 to a float */
690 ecb_function_ float ecb_binary32_to_float (uint32_t x) ecb_const;
691 ecb_function_ float
692 ecb_binary32_to_float (uint32_t x)
693 {
694 float r;
695
696 #if ECB_STDFP
697 memcpy (&r, &x, 4);
698 #else
699 /* emulation, only works for normals and subnormals and +0 */
700 int neg = x >> 31;
701 int e = (x >> 23) & 0xffU;
702
703 x &= 0x7fffffU;
704
705 if (e)
706 x |= 0x800000U;
707 else
708 e = 1;
709
710 /* we distrust ldexpf a bit and do the 2**-24 scaling by an extra multiply */
711 r = ldexpf (x * (0.5f / 0x800000U), e - 126);
712
713 r = neg ? -r : r;
714 #endif
715
716 return r;
717 }
718
719 /* convert a double to ieee double/binary64 */
720 ecb_function_ uint64_t ecb_double_to_binary64 (double x) ecb_const;
721 ecb_function_ uint64_t
722 ecb_double_to_binary64 (double x)
723 {
724 uint64_t r;
725
726 #if ECB_STDFP
727 memcpy (&r, &x, 8);
728 #else
729 /* slow emulation, works for anything but -0 */
730 uint64_t m;
731 int e;
732
733 if (x == 0e0 ) return 0x0000000000000000U;
734 if (x > +1.79769313486231470e+308) return 0x7ff0000000000000U;
735 if (x < -1.79769313486231470e+308) return 0xfff0000000000000U;
736 if (x != x ) return 0X7ff7ffffffffffffU;
737
738 m = frexp (x, &e) * 0x20000000000000U;
739
740 r = m & 0x8000000000000000;;
741
742 if (r)
743 m = -m;
744
745 if (e <= -1022)
746 {
747 m &= 0x1fffffffffffffU;
748 m >>= (-1021 - e);
749 e = -1022;
750 }
751
752 r |= ((uint64_t)(e + 1022)) << 52;
753 r |= m & 0xfffffffffffffU;
754 #endif
755
756 return r;
757 }
758
759 /* converts an ieee double/binary64 to a double */
760 ecb_function_ double ecb_binary64_to_double (uint64_t x) ecb_const;
761 ecb_function_ double
762 ecb_binary64_to_double (uint64_t x)
763 {
764 double r;
765
766 #if ECB_STDFP
767 memcpy (&r, &x, 8);
768 #else
769 /* emulation, only works for normals and subnormals and +0 */
770 int neg = x >> 63;
771 int e = (x >> 52) & 0x7ffU;
772
773 x &= 0xfffffffffffffU;
774
775 if (e)
776 x |= 0x10000000000000U;
777 else
778 e = 1;
779
780 /* we distrust ldexp a bit and do the 2**-53 scaling by an extra multiply */
781 r = ldexp (x * (0.5 / 0x10000000000000U), e - 1022);
782
783 r = neg ? -r : r;
784 #endif
785
786 return r;
787 }
788
789#endif
790
791#endif
792

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