d3409d5e |
1 | /* -*-c-*- |
2 | * |
52cdaca9 |
3 | * $Id: mp-arith.c,v 1.9 2000/10/08 15:48:35 mdw Exp $ |
d3409d5e |
4 | * |
5 | * Basic arithmetic on multiprecision integers |
6 | * |
7 | * (c) 1999 Straylight/Edgeware |
8 | */ |
9 | |
10 | /*----- Licensing notice --------------------------------------------------* |
11 | * |
12 | * This file is part of Catacomb. |
13 | * |
14 | * Catacomb is free software; you can redistribute it and/or modify |
15 | * it under the terms of the GNU Library General Public License as |
16 | * published by the Free Software Foundation; either version 2 of the |
17 | * License, or (at your option) any later version. |
18 | * |
19 | * Catacomb is distributed in the hope that it will be useful, |
20 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
21 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
22 | * GNU Library General Public License for more details. |
23 | * |
24 | * You should have received a copy of the GNU Library General Public |
25 | * License along with Catacomb; if not, write to the Free |
26 | * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, |
27 | * MA 02111-1307, USA. |
28 | */ |
29 | |
30 | /*----- Revision history --------------------------------------------------* |
31 | * |
32 | * $Log: mp-arith.c,v $ |
52cdaca9 |
33 | * Revision 1.9 2000/10/08 15:48:35 mdw |
34 | * Rename Karatsuba constants now that we have @gfx_kmul@ too. |
35 | * |
4b536f42 |
36 | * Revision 1.8 2000/10/08 12:02:21 mdw |
37 | * Use @MP_EQ@ instead of @MP_CMP@. |
38 | * |
f1713c63 |
39 | * Revision 1.7 2000/06/22 19:02:53 mdw |
40 | * New function @mp_odd@ to extract powers of two from an integer. This is |
41 | * common code from the Rabin-Miller test, RSA key recovery and modular |
42 | * square-root extraction. |
43 | * |
d34decd2 |
44 | * Revision 1.6 2000/06/17 11:45:09 mdw |
45 | * Major memory management overhaul. Added arena support. Use the secure |
46 | * arena for secret integers. Replace and improve the MP management macros |
47 | * (e.g., replace MP_MODIFY by MP_DEST). |
48 | * |
bba03f55 |
49 | * Revision 1.5 1999/12/22 15:54:41 mdw |
50 | * Adjust Karatsuba parameters. Calculate destination size better. |
51 | * |
8017495b |
52 | * Revision 1.4 1999/12/13 15:35:16 mdw |
53 | * Slightly different rules on memory allocation. |
54 | * |
5bf74dea |
55 | * Revision 1.3 1999/12/11 10:57:43 mdw |
56 | * Karatsuba squaring algorithm. |
57 | * |
ef5f4810 |
58 | * Revision 1.2 1999/12/10 23:18:39 mdw |
59 | * Change interface for suggested destinations. |
60 | * |
d3409d5e |
61 | * Revision 1.1 1999/11/17 18:02:16 mdw |
62 | * New multiprecision integer arithmetic suite. |
63 | * |
64 | */ |
65 | |
66 | /*----- Header files ------------------------------------------------------*/ |
67 | |
68 | #include "mp.h" |
69 | |
ef5f4810 |
70 | /*----- Macros ------------------------------------------------------------*/ |
71 | |
72 | #define MAX(x, y) ((x) >= (y) ? (x) : (y)) |
73 | |
d3409d5e |
74 | /*----- Main code ---------------------------------------------------------*/ |
75 | |
76 | /* --- @mp_2c@ --- * |
77 | * |
78 | * Arguments: @mp *a@ = source |
79 | * |
80 | * Returns: Result, @a@ converted to two's complement notation. |
81 | */ |
82 | |
83 | mp *mp_2c(mp *d, mp *a) |
84 | { |
85 | if (!(a->f & MP_NEG)) |
86 | return (MP_COPY(a)); |
87 | |
d34decd2 |
88 | MP_DEST(d, MP_LEN(a), a->f); |
d3409d5e |
89 | mpx_2c(d->v, d->vl, a->v, a->vl); |
90 | d->f = a->f & MP_BURN; |
91 | MP_SHRINK(d); |
92 | return (d); |
93 | } |
94 | |
95 | /* --- @mp_sm@ --- * |
96 | * |
97 | * Arguments: @mp *d@ = destination |
98 | * @mp *a@ = source |
99 | * |
100 | * Returns: Result, @a@ converted to the native signed-magnitude |
101 | * notation. |
102 | */ |
103 | |
104 | mp *mp_sm(mp *d, mp *a) |
105 | { |
106 | if (!MP_LEN(a) || a->vl[-1] < MPW_MAX / 2) |
107 | return (MP_COPY(a)); |
108 | |
d34decd2 |
109 | MP_DEST(d, MP_LEN(a), a->f); |
d3409d5e |
110 | mpx_2c(d->v, d->vl, a->v, a->vl); |
111 | d->f = (a->f & (MP_BURN | MP_NEG)) ^ MP_NEG; |
112 | MP_SHRINK(d); |
113 | return (d); |
114 | } |
115 | |
116 | /* --- @mp_lsl@ --- * |
117 | * |
118 | * Arguments: @mp *d@ = destination |
ef5f4810 |
119 | * @mp *a@ = source |
d3409d5e |
120 | * @size_t n@ = number of bits to move |
121 | * |
122 | * Returns: Result, @a@ shifted left by @n@. |
123 | */ |
124 | |
ef5f4810 |
125 | mp *mp_lsl(mp *d, mp *a, size_t n) |
d3409d5e |
126 | { |
d34decd2 |
127 | MP_DEST(d, MP_LEN(a) + (n + MPW_BITS - 1) / MPW_BITS, a->f); |
d3409d5e |
128 | mpx_lsl(d->v, d->vl, a->v, a->vl, n); |
129 | d->f = a->f & (MP_NEG | MP_BURN); |
130 | MP_SHRINK(d); |
131 | return (d); |
132 | } |
133 | |
134 | /* --- @mp_lsr@ --- * |
135 | * |
136 | * Arguments: @mp *d@ = destination |
ef5f4810 |
137 | * @mp *a@ = source |
d3409d5e |
138 | * @size_t n@ = number of bits to move |
139 | * |
140 | * Returns: Result, @a@ shifted left by @n@. |
141 | */ |
142 | |
ef5f4810 |
143 | mp *mp_lsr(mp *d, mp *a, size_t n) |
d3409d5e |
144 | { |
d34decd2 |
145 | MP_DEST(d, MP_LEN(a), a->f); |
d3409d5e |
146 | mpx_lsr(d->v, d->vl, a->v, a->vl, n); |
147 | d->f = a->f & (MP_NEG | MP_BURN); |
148 | MP_SHRINK(d); |
149 | return (d); |
150 | } |
151 | |
4b536f42 |
152 | /* --- @mp_eq@ --- * |
153 | * |
154 | * Arguments: @const mp *a, *b@ = two numbers |
155 | * |
156 | * Returns: Nonzero if the numbers are equal. |
157 | */ |
158 | |
159 | int mp_eq(const mp *a, const mp *b) { return (MP_EQ(a, b)); } |
160 | |
d3409d5e |
161 | /* --- @mp_cmp@ --- * |
162 | * |
163 | * Arguments: @const mp *a, *b@ = two numbers |
164 | * |
165 | * Returns: Less than, equal to or greater than zero, according to |
166 | * whether @a@ is less than, equal to or greater than @b@. |
167 | */ |
168 | |
169 | int mp_cmp(const mp *a, const mp *b) |
170 | { |
171 | if (!((a->f ^ b->f) & MP_NEG)) |
172 | return (mpx_ucmp(a->v, a->vl, b->v, b->vl)); |
173 | else if (a->f & MP_NEG) |
174 | return (-1); |
175 | else |
176 | return (+1); |
177 | } |
178 | |
179 | /* --- @mp_add@ --- * |
180 | * |
181 | * Arguments: @mp *d@ = destination |
ef5f4810 |
182 | * @mp *a, *b@ = sources |
d3409d5e |
183 | * |
184 | * Returns: Result, @a@ added to @b@. |
185 | */ |
186 | |
ef5f4810 |
187 | mp *mp_add(mp *d, mp *a, mp *b) |
d3409d5e |
188 | { |
d34decd2 |
189 | MP_DEST(d, MAX(MP_LEN(a), MP_LEN(b)) + 1, a->f | b->f); |
d3409d5e |
190 | if (!((a->f ^ b->f) & MP_NEG)) |
191 | mpx_uadd(d->v, d->vl, a->v, a->vl, b->v, b->vl); |
192 | else { |
193 | if (MPX_UCMP(a->v, a->vl, <, b->v, b->vl)) { |
ef5f4810 |
194 | mp *t = a; a = b; b = t; |
d3409d5e |
195 | } |
196 | mpx_usub(d->v, d->vl, a->v, a->vl, b->v, b->vl); |
197 | } |
198 | d->f = ((a->f | b->f) & MP_BURN) | (a->f & MP_NEG); |
199 | MP_SHRINK(d); |
200 | return (d); |
201 | } |
202 | |
203 | /* --- @mp_sub@ --- * |
204 | * |
205 | * Arguments: @mp *d@ = destination |
ef5f4810 |
206 | * @mp *a, *b@ = sources |
d3409d5e |
207 | * |
208 | * Returns: Result, @b@ subtracted from @a@. |
209 | */ |
210 | |
ef5f4810 |
211 | mp *mp_sub(mp *d, mp *a, mp *b) |
d3409d5e |
212 | { |
213 | unsigned sgn = 0; |
d34decd2 |
214 | MP_DEST(d, MAX(MP_LEN(a), MP_LEN(b)) + 1, a->f | b->f); |
d3409d5e |
215 | if ((a->f ^ b->f) & MP_NEG) |
216 | mpx_uadd(d->v, d->vl, a->v, a->vl, b->v, b->vl); |
217 | else { |
218 | if (MPX_UCMP(a->v, a->vl, <, b->v, b->vl)) { |
ef5f4810 |
219 | mp *t = a; a = b; b = t; |
d3409d5e |
220 | sgn = MP_NEG; |
221 | } |
222 | mpx_usub(d->v, d->vl, a->v, a->vl, b->v, b->vl); |
223 | } |
224 | d->f = ((a->f | b->f) & MP_BURN) | ((a->f ^ sgn) & MP_NEG); |
225 | MP_SHRINK(d); |
226 | return (d); |
227 | } |
228 | |
229 | /* --- @mp_mul@ --- * |
230 | * |
231 | * Arguments: @mp *d@ = destination |
ef5f4810 |
232 | * @mp *a, *b@ = sources |
d3409d5e |
233 | * |
234 | * Returns: Result, @a@ multiplied by @b@. |
235 | */ |
236 | |
ef5f4810 |
237 | mp *mp_mul(mp *d, mp *a, mp *b) |
d3409d5e |
238 | { |
ef5f4810 |
239 | a = MP_COPY(a); |
240 | b = MP_COPY(b); |
241 | |
52cdaca9 |
242 | if (MP_LEN(a) <= MPK_THRESH || MP_LEN(b) <= MPK_THRESH) { |
d34decd2 |
243 | MP_DEST(d, MP_LEN(a) + MP_LEN(b), a->f | b->f | MP_UNDEF); |
ef5f4810 |
244 | mpx_umul(d->v, d->vl, a->v, a->vl, b->v, b->vl); |
8017495b |
245 | } else { |
bba03f55 |
246 | size_t m = 2 * MAX(MP_LEN(a), MP_LEN(b)) + 2; |
ef5f4810 |
247 | mpw *s; |
d34decd2 |
248 | MP_DEST(d, m, a->f | b->f | MP_UNDEF); |
52cdaca9 |
249 | m += MPK_SLOP; |
d34decd2 |
250 | s = mpalloc(d->a, m); |
ef5f4810 |
251 | mpx_kmul(d->v, d->vl, a->v, a->vl, b->v, b->vl, s, s + m); |
d34decd2 |
252 | mpfree(d->a, s); |
ef5f4810 |
253 | } |
254 | |
d3409d5e |
255 | d->f = ((a->f | b->f) & MP_BURN) | ((a->f ^ b->f) & MP_NEG); |
256 | MP_SHRINK(d); |
ef5f4810 |
257 | MP_DROP(a); |
258 | MP_DROP(b); |
d3409d5e |
259 | return (d); |
260 | } |
261 | |
262 | /* --- @mp_sqr@ --- * |
263 | * |
264 | * Arguments: @mp *d@ = destination |
ef5f4810 |
265 | * @mp *a@ = source |
d3409d5e |
266 | * |
267 | * Returns: Result, @a@ squared. |
268 | */ |
269 | |
ef5f4810 |
270 | mp *mp_sqr(mp *d, mp *a) |
d3409d5e |
271 | { |
ef5f4810 |
272 | size_t m = MP_LEN(a); |
273 | |
274 | a = MP_COPY(a); |
d34decd2 |
275 | MP_DEST(d, 2 * m + 2, a->f | MP_UNDEF); |
52cdaca9 |
276 | if (m > MPK_THRESH) { |
ef5f4810 |
277 | mpw *s; |
52cdaca9 |
278 | m = 2 * (m + 1) + MPK_SLOP; |
d34decd2 |
279 | s = mpalloc(d->a, m); |
5bf74dea |
280 | mpx_ksqr(d->v, d->vl, a->v, a->vl, s, s + m); |
d34decd2 |
281 | mpfree(d->a, s); |
ef5f4810 |
282 | } else |
283 | mpx_usqr(d->v, d->vl, a->v, a->vl); |
d3409d5e |
284 | d->f = a->f & MP_BURN; |
285 | MP_SHRINK(d); |
ef5f4810 |
286 | MP_DROP(a); |
d3409d5e |
287 | return (d); |
288 | } |
289 | |
290 | /* --- @mp_div@ --- * |
291 | * |
292 | * Arguments: @mp **qq, **rr@ = destination, quotient and remainder |
ef5f4810 |
293 | * @mp *a, *b@ = sources |
d3409d5e |
294 | * |
295 | * Use: Calculates the quotient and remainder when @a@ is divided by |
296 | * @b@. The destinations @*qq@ and @*rr@ must be distinct. |
297 | * Either of @qq@ or @rr@ may be null to indicate that the |
298 | * result is irrelevant. (Discarding both results is silly.) |
299 | * There is a performance advantage if @a == *rr@. |
300 | * |
301 | * The behaviour when @a@ and @b@ have the same sign is |
302 | * straightforward. When the signs differ, this implementation |
303 | * chooses @r@ to have the same sign as @b@, rather than the |
304 | * more normal choice that the remainder has the same sign as |
305 | * the dividend. This makes modular arithmetic a little more |
306 | * straightforward. |
307 | */ |
308 | |
ef5f4810 |
309 | void mp_div(mp **qq, mp **rr, mp *a, mp *b) |
d3409d5e |
310 | { |
311 | mp *r = rr ? *rr : MP_NEW; |
312 | mp *q = qq ? *qq : MP_NEW; |
313 | mpw *sv, *svl; |
314 | |
d3409d5e |
315 | /* --- Set the remainder up right --- * |
316 | * |
317 | * Just in case the divisor is larger, be able to cope with this. It's not |
318 | * important in @mpx_udiv@, but it is here because of the sign correction. |
319 | */ |
320 | |
d34decd2 |
321 | b = MP_COPY(b); |
322 | a = MP_COPY(a); |
323 | if (r) |
324 | MP_DROP(r); |
325 | r = a; |
326 | MP_DEST(r, MP_LEN(a) + 2, a->f | b->f); |
d3409d5e |
327 | |
328 | /* --- Fix up the quotient too --- */ |
329 | |
d34decd2 |
330 | r = MP_COPY(r); |
331 | MP_DEST(q, MP_LEN(r), r->f | MP_UNDEF); |
332 | MP_DROP(r); |
333 | |
334 | /* --- Set up some temporary workspace --- */ |
335 | |
336 | { |
337 | size_t rq = MP_LEN(b) + 1; |
338 | sv = mpalloc(r->a, rq); |
339 | svl = sv + rq; |
340 | } |
d3409d5e |
341 | |
342 | /* --- Perform the calculation --- */ |
343 | |
344 | mpx_udiv(q->v, q->vl, r->v, r->vl, b->v, b->vl, sv, svl); |
345 | |
346 | /* --- Sort out the sign of the results --- * |
347 | * |
348 | * If the signs of the arguments differ, and the remainder is nonzero, I |
349 | * must add one to the absolute value of the quotient and subtract the |
350 | * remainder from @b@. |
351 | */ |
352 | |
d34decd2 |
353 | q->f = ((r->f | b->f) & MP_BURN) | ((r->f ^ b->f) & MP_NEG); |
d3409d5e |
354 | if (q->f & MP_NEG) { |
ef5f4810 |
355 | mpw *v; |
356 | for (v = r->v; v < r->vl; v++) { |
d3409d5e |
357 | if (*v) { |
358 | MPX_UADDN(q->v, q->vl, 1); |
359 | mpx_usub(r->v, r->vl, b->v, b->vl, r->v, r->vl); |
360 | break; |
361 | } |
362 | } |
363 | } |
364 | |
d34decd2 |
365 | r->f = ((r->f | b->f) & MP_BURN) | (b->f & MP_NEG); |
d3409d5e |
366 | |
367 | /* --- Store the return values --- */ |
368 | |
d34decd2 |
369 | mpfree(r->a, sv); |
370 | MP_DROP(b); |
371 | |
d3409d5e |
372 | if (!qq) |
373 | MP_DROP(q); |
374 | else { |
375 | MP_SHRINK(q); |
376 | *qq = q; |
377 | } |
378 | |
379 | if (!rr) |
380 | MP_DROP(r); |
381 | else { |
382 | MP_SHRINK(r); |
383 | *rr = r; |
384 | } |
d3409d5e |
385 | } |
386 | |
f1713c63 |
387 | /* --- @mp_odd@ --- * |
388 | * |
389 | * Arguments: @mp *d@ = pointer to destination integer |
390 | * @mp *m@ = pointer to source integer |
391 | * @size_t *s@ = where to store the power of 2 |
392 | * |
393 | * Returns: An odd integer integer %$t$% such that %$m = 2^s t$%. |
394 | * |
395 | * Use: Computes a power of two and an odd integer which, when |
396 | * multiplied, give a specified result. This sort of thing is |
397 | * useful in number theory quite often. |
398 | */ |
399 | |
400 | mp *mp_odd(mp *d, mp *m, size_t *s) |
401 | { |
402 | size_t ss = 0; |
403 | const mpw *v, *vl; |
404 | |
405 | v = m->v; |
406 | vl = m->vl; |
407 | for (; !*v && v < vl; v++) |
408 | ss += MPW_BITS; |
409 | if (v >= vl) |
410 | ss = 0; |
411 | else { |
412 | mpw x = *v; |
413 | mpw mask = MPW_MAX; |
414 | unsigned z = MPW_BITS / 2; |
415 | |
416 | while (z) { |
417 | mask >>= z; |
418 | if (!(x & mask)) { |
419 | x >>= z; |
420 | ss += z; |
421 | } |
422 | z >>= 1; |
423 | } |
424 | } |
425 | |
426 | *s = ss; |
427 | return (mp_lsr(d, m, ss)); |
428 | } |
429 | |
d3409d5e |
430 | /*----- Test rig ----------------------------------------------------------*/ |
431 | |
432 | #ifdef TEST_RIG |
433 | |
434 | static int verify(const char *op, mp *expect, mp *result, mp *a, mp *b) |
435 | { |
4b536f42 |
436 | if (!MP_EQ(expect, result)) { |
d3409d5e |
437 | fprintf(stderr, "\n*** %s failed", op); |
438 | fputs("\n*** a = ", stderr); mp_writefile(a, stderr, 10); |
439 | fputs("\n*** b = ", stderr); mp_writefile(b, stderr, 10); |
440 | fputs("\n*** result = ", stderr); mp_writefile(result, stderr, 10); |
441 | fputs("\n*** expect = ", stderr); mp_writefile(expect, stderr, 10); |
442 | fputc('\n', stderr); |
443 | return (0); |
444 | } |
445 | return (1); |
446 | } |
447 | |
448 | #define RIG(name, op) \ |
ef5f4810 |
449 | static int t##name(dstr *v) \ |
d3409d5e |
450 | { \ |
451 | mp *a = *(mp **)v[0].buf; \ |
452 | mpw n = *(int *)v[1].buf; \ |
453 | mp b; \ |
454 | mp *r = *(mp **)v[2].buf; \ |
455 | mp *c = op(MP_NEW, a, n); \ |
456 | int ok; \ |
457 | mp_build(&b, &n, &n + 1); \ |
458 | ok = verify(#name, r, c, a, &b); \ |
459 | mp_drop(a); mp_drop(c); mp_drop(r); \ |
ef5f4810 |
460 | assert(mparena_count(MPARENA_GLOBAL) == 0); \ |
d3409d5e |
461 | return (ok); \ |
462 | } |
463 | |
464 | RIG(lsl, mp_lsl) |
465 | RIG(lsr, mp_lsr) |
466 | |
467 | #undef RIG |
468 | |
469 | #define RIG(name, op) \ |
ef5f4810 |
470 | static int t##name(dstr *v) \ |
d3409d5e |
471 | { \ |
472 | mp *a = *(mp **)v[0].buf; \ |
473 | mp *b = *(mp **)v[1].buf; \ |
474 | mp *r = *(mp **)v[2].buf; \ |
475 | mp *c = op(MP_NEW, a, b); \ |
476 | int ok = verify(#name, r, c, a, b); \ |
477 | mp_drop(a); mp_drop(b); mp_drop(c); mp_drop(r); \ |
ef5f4810 |
478 | assert(mparena_count(MPARENA_GLOBAL) == 0); \ |
d3409d5e |
479 | return (ok); \ |
480 | } |
481 | |
482 | RIG(add, mp_add) |
483 | RIG(sub, mp_sub) |
484 | RIG(mul, mp_mul) |
485 | |
486 | #undef RIG |
487 | |
488 | static int tdiv(dstr *v) |
489 | { |
490 | mp *a = *(mp **)v[0].buf; |
491 | mp *b = *(mp **)v[1].buf; |
492 | mp *q = *(mp **)v[2].buf; |
493 | mp *r = *(mp **)v[3].buf; |
494 | mp *c = MP_NEW, *d = MP_NEW; |
495 | int ok = 1; |
496 | mp_div(&c, &d, a, b); |
497 | ok &= verify("div(quotient)", q, c, a, b); |
498 | ok &= verify("div(remainder)", r, d, a, b); |
499 | mp_drop(a); mp_drop(b); mp_drop(c); mp_drop(d); mp_drop(r); mp_drop(q); |
ef5f4810 |
500 | assert(mparena_count(MPARENA_GLOBAL) == 0); |
d3409d5e |
501 | return (ok); |
502 | } |
503 | |
f1713c63 |
504 | static int todd(dstr *v) |
505 | { |
506 | mp *a = *(mp **)v[0].buf; |
507 | size_t rs = *(uint32 *)v[1].buf; |
508 | mp *rt = *(mp **)v[2].buf; |
509 | int ok = 1; |
510 | mp *t; |
511 | size_t s; |
512 | t = mp_odd(MP_NEW, a, &s); |
4b536f42 |
513 | if (s != rs || !MP_EQ(t, rt)) { |
f1713c63 |
514 | ok = 0; |
515 | fprintf(stderr, "\n*** odd failed"); |
516 | fputs("\n*** a = ", stderr); mp_writefile(a, stderr, 10); |
517 | fprintf(stderr, "\n*** s = %lu", (unsigned long)s); |
518 | fputs("\n*** t = ", stderr); mp_writefile(t, stderr, 10); |
519 | fprintf(stderr, "\n*** rs = %lu", (unsigned long)rs); |
520 | fputs("\n*** rt = ", stderr); mp_writefile(rt, stderr, 10); |
521 | fputc('\n', stderr); |
522 | } |
523 | mp_drop(a); |
524 | mp_drop(rt); |
525 | mp_drop(t); |
526 | return (ok); |
527 | } |
528 | |
d3409d5e |
529 | static test_chunk tests[] = { |
530 | { "lsl", tlsl, { &type_mp, &type_mp, &type_mp, 0 } }, |
531 | { "lsr", tlsr, { &type_mp, &type_mp, &type_mp, 0 } }, |
532 | { "add", tadd, { &type_mp, &type_mp, &type_mp, 0 } }, |
533 | { "sub", tsub, { &type_mp, &type_mp, &type_mp, 0 } }, |
534 | { "mul", tmul, { &type_mp, &type_mp, &type_mp, 0 } }, |
535 | { "div", tdiv, { &type_mp, &type_mp, &type_mp, &type_mp, 0 } }, |
f1713c63 |
536 | { "odd", todd, { &type_mp, &type_uint32, &type_mp, 0 } }, |
d3409d5e |
537 | { 0, 0, { 0 } }, |
538 | }; |
539 | |
540 | int main(int argc, char *argv[]) |
541 | { |
542 | sub_init(); |
543 | test_run(argc, argv, tests, SRCDIR "/tests/mp"); |
544 | return (0); |
545 | } |
546 | |
547 | #endif |
548 | |
549 | /*----- That's all, folks -------------------------------------------------*/ |