xref: /freebsd/contrib/bc/include/rand.h (revision 38a52bd3b5cac3da6f7f6eef3dd050e6aa08ebb3)
1 /*
2  * *****************************************************************************
3  *
4  * Parts of this code are adapted from the following:
5  *
6  * PCG, A Family of Better Random Number Generators.
7  *
8  * You can find the original source code at:
9  *   https://github.com/imneme/pcg-c
10  *
11  * -----------------------------------------------------------------------------
12  *
13  * This code is under the following license:
14  *
15  * Copyright (c) 2014-2017 Melissa O'Neill and PCG Project contributors
16  * Copyright (c) 2018-2021 Gavin D. Howard and contributors.
17  *
18  * Permission is hereby granted, free of charge, to any person obtaining a copy
19  * of this software and associated documentation files (the "Software"), to deal
20  * in the Software without restriction, including without limitation the rights
21  * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
22  * copies of the Software, and to permit persons to whom the Software is
23  * furnished to do so, subject to the following conditions:
24  *
25  * The above copyright notice and this permission notice shall be included in
26  * all copies or substantial portions of the Software.
27  *
28  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
29  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
30  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
31  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
32  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
33  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
34  * SOFTWARE.
35  *
36  * *****************************************************************************
37  *
38  * Definitions for the RNG.
39  *
40  */
41 
42 #ifndef BC_RAND_H
43 #define BC_RAND_H
44 
45 #include <stdint.h>
46 #include <inttypes.h>
47 
48 #include <vector.h>
49 #include <num.h>
50 
51 #if BC_ENABLE_EXTRA_MATH
52 
53 #if BC_ENABLE_LIBRARY
54 #define BC_RAND_USE_FREE (1)
55 #else // BC_ENABLE_LIBRARY
56 #ifndef NDEBUG
57 #define BC_RAND_USE_FREE (1)
58 #else // NDEBUG
59 #define BC_RAND_USE_FREE (0)
60 #endif // NDEBUG
61 #endif // BC_ENABLE_LIBRARY
62 
63 /**
64  * A function to return a random unsigned long.
65  * @param ptr  A void ptr to some data that will help generate the random ulong.
66  * @return     The random ulong.
67  */
68 typedef ulong (*BcRandUlong)(void* ptr);
69 
70 #if BC_LONG_BIT >= 64
71 
72 // If longs are 64 bits, we have the option of 128-bit integers on some
73 // compilers. These two sections test that.
74 #ifdef BC_RAND_BUILTIN
75 #if BC_RAND_BUILTIN
76 #ifndef __SIZEOF_INT128__
77 #undef BC_RAND_BUILTIN
78 #define BC_RAND_BUILTIN (0)
79 #endif // __SIZEOF_INT128__
80 #endif // BC_RAND_BUILTIN
81 #endif // BC_RAND_BUILTIN
82 
83 #ifndef BC_RAND_BUILTIN
84 #ifdef __SIZEOF_INT128__
85 #define BC_RAND_BUILTIN (1)
86 #else // __SIZEOF_INT128__
87 #define BC_RAND_BUILTIN (0)
88 #endif // __SIZEOF_INT128__
89 #endif // BC_RAND_BUILTIN
90 
91 /// The type for random integers.
92 typedef uint64_t BcRand;
93 
94 /// A constant defined by PCG.
95 #define BC_RAND_ROTC (63)
96 
97 #if BC_RAND_BUILTIN
98 
99 /// A typedef for the PCG state.
100 typedef __uint128_t BcRandState;
101 
102 /**
103  * Multiply two integers, worrying about overflow.
104  * @param a  The first integer.
105  * @param b  The second integer.
106  * @return   The product of the PCG states.
107  */
108 #define bc_rand_mul(a, b) (((BcRandState) (a)) * ((BcRandState) (b)))
109 
110 /**
111  * Add two integers, worrying about overflow.
112  * @param a  The first integer.
113  * @param b  The second integer.
114  * @return   The sum of the PCG states.
115  */
116 #define bc_rand_add(a, b) (((BcRandState) (a)) + ((BcRandState) (b)))
117 
118 /**
119  * Multiply two PCG states.
120  * @param a  The first PCG state.
121  * @param b  The second PCG state.
122  * @return   The product of the PCG states.
123  */
124 #define bc_rand_mul2(a, b) (((BcRandState) (a)) * ((BcRandState) (b)))
125 
126 /**
127  * Add two PCG states.
128  * @param a  The first PCG state.
129  * @param b  The second PCG state.
130  * @return   The sum of the PCG states.
131  */
132 #define bc_rand_add2(a, b) (((BcRandState) (a)) + ((BcRandState) (b)))
133 
134 /**
135  * Figure out if the PRNG has been modified. Since the increment of the PRNG has
136  * to be odd, we use the extra bit to store whether it has been modified or not.
137  * @param r  The PRNG.
138  * @return   True if the PRNG has *not* been modified, false otherwise.
139  */
140 #define BC_RAND_NOTMODIFIED(r) (((r)->inc & 1UL) == 0)
141 
142 /**
143  * Return true if the PRNG has not been seeded yet.
144  * @param r  The PRNG.
145  * @return   True if the PRNG has not been seeded yet, false otherwise.
146  */
147 #define BC_RAND_ZERO(r) (!(r)->state)
148 
149 /**
150  * Returns a constant built from @a h and @a l.
151  * @param h  The high 64 bits.
152  * @param l  The low 64 bits.
153  * @return   The constant built from @a h and @a l.
154  */
155 #define BC_RAND_CONSTANT(h, l) ((((BcRandState) (h)) << 64) + (BcRandState) (l))
156 
157 /**
158  * Truncates a PCG state to the number of bits in a random integer.
159  * @param s  The state to truncate.
160  * @return   The truncated state.
161  */
162 #define BC_RAND_TRUNC(s) ((uint64_t) (s))
163 
164 /**
165  * Chops a PCG state in half and returns the top bits.
166  * @param s  The state to chop.
167  * @return   The chopped state's top bits.
168  */
169 #define BC_RAND_CHOP(s) ((uint64_t) ((s) >> 64UL))
170 
171 /**
172  * Rotates a PCG state.
173  * @param s  The state to rotate.
174  * @return   The rotated state.
175  */
176 #define BC_RAND_ROTAMT(s) ((unsigned int) ((s) >> 122UL))
177 
178 #else // BC_RAND_BUILTIN
179 
180 /// A typedef for the PCG state.
181 typedef struct BcRandState
182 {
183 	/// The low bits.
184 	uint_fast64_t lo;
185 
186 	/// The high bits.
187 	uint_fast64_t hi;
188 
189 } BcRandState;
190 
191 /**
192  * Multiply two integers, worrying about overflow.
193  * @param a  The first integer.
194  * @param b  The second integer.
195  * @return   The product of the PCG states.
196  */
197 #define bc_rand_mul(a, b) (bc_rand_multiply((a), (b)))
198 
199 /**
200  * Add two integers, worrying about overflow.
201  * @param a  The first integer.
202  * @param b  The second integer.
203  * @return   The sum of the PCG states.
204  */
205 #define bc_rand_add(a, b) (bc_rand_addition((a), (b)))
206 
207 /**
208  * Multiply two PCG states.
209  * @param a  The first PCG state.
210  * @param b  The second PCG state.
211  * @return   The product of the PCG states.
212  */
213 #define bc_rand_mul2(a, b) (bc_rand_multiply2((a), (b)))
214 
215 /**
216  * Add two PCG states.
217  * @param a  The first PCG state.
218  * @param b  The second PCG state.
219  * @return   The sum of the PCG states.
220  */
221 #define bc_rand_add2(a, b) (bc_rand_addition2((a), (b)))
222 
223 /**
224  * Figure out if the PRNG has been modified. Since the increment of the PRNG has
225  * to be odd, we use the extra bit to store whether it has been modified or not.
226  * @param r  The PRNG.
227  * @return   True if the PRNG has *not* been modified, false otherwise.
228  */
229 #define BC_RAND_NOTMODIFIED(r) (((r)->inc.lo & 1) == 0)
230 
231 /**
232  * Return true if the PRNG has not been seeded yet.
233  * @param r  The PRNG.
234  * @return   True if the PRNG has not been seeded yet, false otherwise.
235  */
236 #define BC_RAND_ZERO(r) (!(r)->state.lo && !(r)->state.hi)
237 
238 /**
239  * Returns a constant built from @a h and @a l.
240  * @param h  The high 64 bits.
241  * @param l  The low 64 bits.
242  * @return   The constant built from @a h and @a l.
243  */
244 #define BC_RAND_CONSTANT(h, l) \
245 	{                          \
246 		.lo = (l), .hi = (h)   \
247 	}
248 
249 /**
250  * Truncates a PCG state to the number of bits in a random integer.
251  * @param s  The state to truncate.
252  * @return   The truncated state.
253  */
254 #define BC_RAND_TRUNC(s) ((s).lo)
255 
256 /**
257  * Chops a PCG state in half and returns the top bits.
258  * @param s  The state to chop.
259  * @return   The chopped state's top bits.
260  */
261 #define BC_RAND_CHOP(s) ((s).hi)
262 
263 /**
264  * Returns the rotate amount for a PCG state.
265  * @param s  The state to rotate.
266  * @return   The semi-rotated state.
267  */
268 #define BC_RAND_ROTAMT(s) ((unsigned int) ((s).hi >> 58UL))
269 
270 /// A 64-bit integer with the bottom 32 bits set.
271 #define BC_RAND_BOTTOM32 (((uint_fast64_t) 0xffffffffULL))
272 
273 /**
274  * Returns the 32-bit truncated value of @a n.
275  * @param n  The integer to truncate.
276  * @return   The bottom 32 bits of @a n.
277  */
278 #define BC_RAND_TRUNC32(n) ((n) & (BC_RAND_BOTTOM32))
279 
280 /**
281  * Returns the second 32 bits of @a n.
282  * @param n  The integer to truncate.
283  * @return   The second 32 bits of @a n.
284  */
285 #define BC_RAND_CHOP32(n) ((n) >> 32)
286 
287 #endif // BC_RAND_BUILTIN
288 
289 /// A constant defined by PCG.
290 #define BC_RAND_MULTIPLIER \
291 	BC_RAND_CONSTANT(2549297995355413924ULL, 4865540595714422341ULL)
292 
293 /**
294  * Returns the result of a PCG fold.
295  * @param s  The state to fold.
296  * @return   The folded state.
297  */
298 #define BC_RAND_FOLD(s) ((BcRand) (BC_RAND_CHOP(s) ^ BC_RAND_TRUNC(s)))
299 
300 #else // BC_LONG_BIT >= 64
301 
302 // If we are using 32-bit longs, we need to set these so.
303 #undef BC_RAND_BUILTIN
304 #define BC_RAND_BUILTIN (1)
305 
306 /// The type for random integers.
307 typedef uint32_t BcRand;
308 
309 /// A constant defined by PCG.
310 #define BC_RAND_ROTC (31)
311 
312 /// A typedef for the PCG state.
313 typedef uint_fast64_t BcRandState;
314 
315 /**
316  * Multiply two integers, worrying about overflow.
317  * @param a  The first integer.
318  * @param b  The second integer.
319  * @return   The product of the PCG states.
320  */
321 #define bc_rand_mul(a, b) (((BcRandState) (a)) * ((BcRandState) (b)))
322 
323 /**
324  * Add two integers, worrying about overflow.
325  * @param a  The first integer.
326  * @param b  The second integer.
327  * @return   The sum of the PCG states.
328  */
329 #define bc_rand_add(a, b) (((BcRandState) (a)) + ((BcRandState) (b)))
330 
331 /**
332  * Multiply two PCG states.
333  * @param a  The first PCG state.
334  * @param b  The second PCG state.
335  * @return   The product of the PCG states.
336  */
337 #define bc_rand_mul2(a, b) (((BcRandState) (a)) * ((BcRandState) (b)))
338 
339 /**
340  * Add two PCG states.
341  * @param a  The first PCG state.
342  * @param b  The second PCG state.
343  * @return   The sum of the PCG states.
344  */
345 #define bc_rand_add2(a, b) (((BcRandState) (a)) + ((BcRandState) (b)))
346 
347 /**
348  * Figure out if the PRNG has been modified. Since the increment of the PRNG has
349  * to be odd, we use the extra bit to store whether it has been modified or not.
350  * @param r  The PRNG.
351  * @return   True if the PRNG has *not* been modified, false otherwise.
352  */
353 #define BC_RAND_NOTMODIFIED(r) (((r)->inc & 1UL) == 0)
354 
355 /**
356  * Return true if the PRNG has not been seeded yet.
357  * @param r  The PRNG.
358  * @return   True if the PRNG has not been seeded yet, false otherwise.
359  */
360 #define BC_RAND_ZERO(r) (!(r)->state)
361 
362 /**
363  * Returns a constant built from a number.
364  * @param n  The number.
365  * @return   The constant built from @a n.
366  */
367 #define BC_RAND_CONSTANT(n) UINT64_C(n)
368 
369 /// A constant defined by PCG.
370 #define BC_RAND_MULTIPLIER BC_RAND_CONSTANT(6364136223846793005)
371 
372 /**
373  * Truncates a PCG state to the number of bits in a random integer.
374  * @param s  The state to truncate.
375  * @return   The truncated state.
376  */
377 #define BC_RAND_TRUNC(s) ((uint32_t) (s))
378 
379 /**
380  * Chops a PCG state in half and returns the top bits.
381  * @param s  The state to chop.
382  * @return   The chopped state's top bits.
383  */
384 #define BC_RAND_CHOP(s) ((uint32_t) ((s) >> 32UL))
385 
386 /**
387  * Returns the rotate amount for a PCG state.
388  * @param s  The state to rotate.
389  * @return   The semi-rotated state.
390  */
391 #define BC_RAND_ROTAMT(s) ((unsigned int) ((s) >> 59UL))
392 
393 /**
394  * Returns the result of a PCG fold.
395  * @param s  The state to fold.
396  * @return   The folded state.
397  */
398 #define BC_RAND_FOLD(s) ((BcRand) ((((s) >> 18U) ^ (s)) >> 27U))
399 
400 #endif // BC_LONG_BIT >= 64
401 
402 /**
403  * Rotates @a v by @a r bits.
404  * @param v  The value to rotate.
405  * @param r  The amount to rotate by.
406  * @return   The rotated value.
407  */
408 #define BC_RAND_ROT(v, r) \
409 	((BcRand) (((v) >> (r)) | ((v) << ((0 - (r)) & BC_RAND_ROTC))))
410 
411 /// The number of bits in a random integer.
412 #define BC_RAND_BITS (sizeof(BcRand) * CHAR_BIT)
413 
414 /// The number of bits in a PCG state.
415 #define BC_RAND_STATE_BITS (sizeof(BcRandState) * CHAR_BIT)
416 
417 /// The size of a BcNum with the max random integer. This isn't exact; it's
418 /// actually rather crude. But it's always enough.
419 #define BC_RAND_NUM_SIZE (BC_NUM_BIGDIG_LOG10 * 2 + 2)
420 
421 /// The mask for how many bits bc_rand_srand() can set per iteration.
422 #define BC_RAND_SRAND_BITS ((1 << CHAR_BIT) - 1)
423 
424 /// The actual RNG data. These are the actual PRNG's.
425 typedef struct BcRNGData
426 {
427 	/// The state.
428 	BcRandState state;
429 
430 	/// The increment and the modified bit.
431 	BcRandState inc;
432 
433 } BcRNGData;
434 
435 /// The public PRNG. This is just a stack of PRNG's to maintain the globals
436 /// stack illusion.
437 typedef struct BcRNG
438 {
439 	/// The stack of PRNG's.
440 	BcVec v;
441 
442 } BcRNG;
443 
444 /**
445  * Initializes a BcRNG.
446  * @param r  The BcRNG to initialize.
447  */
448 void
449 bc_rand_init(BcRNG* r);
450 
451 #if BC_RAND_USE_FREE
452 
453 /**
454  * Frees a BcRNG. This is only in debug builds because it would only be freed on
455  * exit.
456  * @param r  The BcRNG to free.
457  */
458 void
459 bc_rand_free(BcRNG* r);
460 
461 #endif // BC_RAND_USE_FREE
462 
463 /**
464  * Returns a random integer from the PRNG.
465  * @param r  The PRNG.
466  * @return   A random integer.
467  */
468 BcRand
469 bc_rand_int(BcRNG* r);
470 
471 /**
472  * Returns a random integer from the PRNG bounded by @a bound. Bias is
473  * eliminated.
474  * @param r      The PRNG.
475  * @param bound  The bound for the random integer.
476  * @return       A bounded random integer.
477  */
478 BcRand
479 bc_rand_bounded(BcRNG* r, BcRand bound);
480 
481 /**
482  * Seed the PRNG with the state in two parts and the increment in two parts.
483  * @param r       The PRNG.
484  * @param state1  The first part of the state.
485  * @param state2  The second part of the state.
486  * @param inc1    The first part of the increment.
487  * @param inc2    The second part of the increment.
488  */
489 void
490 bc_rand_seed(BcRNG* r, ulong state1, ulong state2, ulong inc1, ulong inc2);
491 
492 /**
493  * Pushes a new PRNG onto the PRNG stack.
494  * @param r  The PRNG.
495  */
496 void
497 bc_rand_push(BcRNG* r);
498 
499 /**
500  * Pops one or all but one items off of the PRNG stack.
501  * @param r      The PRNG.
502  * @param reset  True if all but one PRNG should be popped off the stack, false
503  *               if only one should be popped.
504  */
505 void
506 bc_rand_pop(BcRNG* r, bool reset);
507 
508 /**
509  * Returns, via pointers, the state of the PRNG in pieces.
510  * @param r   The PRNG.
511  * @param s1  The return value for the first part of the state.
512  * @param s2  The return value for the second part of the state.
513  * @param i1  The return value for the first part of the increment.
514  * @param i2  The return value for the second part of the increment.
515  */
516 void
517 bc_rand_getRands(BcRNG* r, BcRand* s1, BcRand* s2, BcRand* i1, BcRand* i2);
518 
519 /**
520  * Seed the PRNG with random data.
521  * @param rng  The PRNG.
522  */
523 void
524 bc_rand_srand(BcRNGData* rng);
525 
526 /// A reference to a constant multiplier.
527 extern const BcRandState bc_rand_multiplier;
528 
529 #endif // BC_ENABLE_EXTRA_MATH
530 
531 #endif // BC_RAND_H
532