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Revision 98 - (show annotations) (download)
Sun Dec 18 00:57:31 2016 UTC (7 years, 9 months ago) by dashley
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Reorganization.
1 //$Header$
2 //-------------------------------------------------------------------------------------------------
3 //This file is part of "David T. Ashley's Shared Source Code", a set of shared components
4 //integrated into many of David T. Ashley's projects.
5 //-------------------------------------------------------------------------------------------------
6 //This source code and any program in which it is compiled/used is provided under the MIT License,
7 //reproduced below.
8 //-------------------------------------------------------------------------------------------------
9 //Permission is hereby granted, free of charge, to any person obtaining a copy of
10 //this software and associated documentation files(the "Software"), to deal in the
11 //Software without restriction, including without limitation the rights to use,
12 //copy, modify, merge, publish, distribute, sublicense, and / or sell copies of the
13 //Software, and to permit persons to whom the Software is furnished to do so,
14 //subject to the following conditions :
15 //
16 //The above copyright notice and this permission notice shall be included in all
17 //copies or substantial portions of the Software.
18 //
19 //THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
20 //IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
21 //FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
22 //AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
23 //LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
24 //OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
25 //SOFTWARE.
26 //-------------------------------------------------------------------------------------------------
27 /*
28 This software module is a careful adaptation of the integer functions
29 in the GNU MP library.
30
31 By "adaptation" I mean the following:
32
33 o Many of the macros and other constructs that affect readability
34 have been removed. This has been done for simplicity.
35
36 o Only the needed functions (large integer and rational number
37 functions) have been included. This is for use in Dave Ashley's
38 set of tools.
39
40 o The number of source modules has been dramatically reduced.
41
42 o Assembly-language has been removed. Instead, at the lowest
43 level, the core is generic 'C' provided by GNU (this is
44 selected if processor=none is the processor chosen). This
45 certainly has an effect on speed, but I would rather sacrifice
46 quite a bit of speed and keep it simple (in one module).
47
48 o The GNU MP library has been specifically ported for Microsoft
49 Visual C++ 6.0. In other words, its portability has been
50 deliberately destroyed. Do NOT try to use this on another
51 platform (or at least certainly do NOT contact me if you have
52 problems with this).
53
54 o Certain other stylistic changes have been made.
55 */
56 #ifndef GMP_INTS_H_INCLUDED
57 #define GMP_INTS_H_INCLUDED
58
59 #ifdef MODULE_GMP_INTS
60 #define DECMOD_GMP_INTS
61 #else
62 #define DECMOD_GMP_INTS extern
63 #endif
64
65 typedef unsigned long int GMP_INTS_limb_t;
66 //The fundamental data type for representing integers in binary
67 //form. For MSVC++, this is a 32-bit type. This data type
68 //is not normally needed publicly.
69 #define GMP_INTS_BITS_PER_LIMB (32)
70 //This is the number of bits that each limb is assumed to hold.
71 //There is an explicit function in the interface to check this,
72 //in case anything changes with future versions of MSVC++.
73 //This software module is NOT meant to be portable, or even
74 //particularly quick. It is meant to be verifiable and
75 //testable instead.
76 typedef long int GMP_INTS_limb_signed_t;
77 //Signed version of above.
78 typedef GMP_INTS_limb_t * GMP_INTS_limb_ptr;
79 //Pointer to a limb (or, more characteristically, to an array
80 //of limbs).
81 typedef const GMP_INTS_limb_t * GMP_INTS_limb_srcptr;
82 //Constant pointer used as the source pointer for copies
83 //and other operations.
84 typedef long int GMP_INTS_size_t;
85 //Used for representing the size of things to this module
86 typedef long int GMP_INTS_exp_t;
87 //Used for representing exponent. Assumed to be large enough
88 //for this.
89
90 //Below is fundamental structure which holds an arbitrary-size
91 //integer.
92 typedef struct
93 {
94 int flags;
95 //Bit-flags as to the condition of the
96 //integer. The bitflags defined so far
97 //are designed to be mutually exclusive,
98 //and are listed below. At the same time,
99 //we need to define the "official" strings
100 //for these bit flags.
101 #define GMP_INTS_EF_INTOVF_POS (1)
102 #define GMP_INTS_EF_INTOVF_POS_STRING \
103 "GMP_INTS_EF_INTOVF_POS"
104 //The integer has become too large
105 //growing in a positive direction.
106 //No further arithmetic will be
107 //performed on it.
108 #define GMP_INTS_EF_INTOVF_NEG (2)
109 #define GMP_INTS_EF_INTOVF_NEG_STRING \
110 "GMP_INTS_EF_INTOVF_NEG"
111 //The integer has become too large
112 //growing in a negative direction.
113 //No further arithmetic will be
114 //performed on it.
115 #define GMP_INTS_EF_INTOVF_TAINT_POS (4)
116 #define GMP_INTS_EF_INTOVF_TAINT_POS_STRING \
117 "GMP_INTS_EF_INTOVF_TAINT_POS"
118 //The integer has been arithmetically
119 //combined with an integer that has
120 //overflowed in the positive direction.
121 //This integer is thus considered tainted
122 //and no further arithmetic will be
123 //performed on it.
124 #define GMP_INTS_EF_INTOVF_TAINT_NEG (8)
125 #define GMP_INTS_EF_INTOVF_TAINT_NEG_STRING \
126 "GMP_INTS_EF_INTOVF_TAINT_NEG"
127 //The integer has been arithmetically
128 //combined with an integer that has
129 //overflowed in the negative direction.
130 //This integer is thus considered tainted
131 //and no further arithmetic will be
132 //performed on it.
133 //The flags above will prevent arithmetic
134 //on an integer and will taint any integer
135 //that comes into contact with it as the
136 //result of an operation. These flags are
137 //cleared only by an assignment operation
138 //of any kind.
139 //
140 //The next logical questions are:
141 // o Why do we want to make a size
142 // limit on integers, anyway?
143 // o How big is too big?
144 //
145 //We want a limit because this software module
146 //will be used in programs that should be
147 //reliable. Allowing arbitrarily large results
148 //would invite users to break the software.
149 //It would also make testing impossible, because
150 //the module could not be tested out to its
151 //limits. Assigning limits means that testing
152 //can be performed to the limits. Also, there
153 //are certain constructs in the software that
154 //may break at high limits, such as _alloca().
155 //
156 //The question of how large is too large is a
157 //harder question. Arbitrarily, let's decide
158 //that we want the equivalent of integers with
159 //100,000 decimal digits, which is about
160 //332,224 bits, or 10,382 limbs. (By the way
161 //this limit can always be raised later, but
162 //the important point is that it exists and
163 //is tested to). Any integer with more limbs
164 //than this is considered illegal.
165 #define GMP_INTS_MAXIMUM_LIMBS_PER_INT (10382)
166 int n_allocd; /* Number of limbs allocated and pointed
167 to by the limbs field. This gives the
168 number allocated (i.e. physically
169 allocated), but the next field tells how
170 many are used. Memory is never shrunk
171 automatically by this software module
172 (per the wise GNU MP design), so this
173 number does not ever automatically
174 decrease. */
175 int size; /* abs(size) is the number of limbs the
176 last field points to. If _mp_size is
177 negative this is a negative number. This
178 will be zero if the integer is zero. */
179 GMP_INTS_limb_t *limbs;
180 /* Pointer to the limbs. The first field
181 of the structure (above) tells how many
182 spots are allocated, and the second
183 field (above) tells how many are used.
184 Numbers are stored least-significant
185 limbs first. */
186 } GMP_INTS_mpz_struct;
187
188
189 /* Wrappers for non-stack memory allocation function to be used
190 ** by integer, rational number, and integer and rational number
191 ** algorithm functions. These must be public because they are
192 ** used by the other modules that deal with integers and rational
193 ** numbers.
194 */
195 DECMOD_GMP_INTS void *GMP_INTS_malloc( size_t size );
196 DECMOD_GMP_INTS void *GMP_INTS_calloc( size_t num, size_t size );
197 DECMOD_GMP_INTS void *GMP_INTS_realloc( void *memblock, size_t size );
198 DECMOD_GMP_INTS void *GMP_INTS_realloc_w_size( void *memblock,
199 size_t old_size,
200 size_t size );
201 DECMOD_GMP_INTS void GMP_INTS_free( void *memblock );
202 DECMOD_GMP_INTS void GMP_INTS_free_w_size( void *memblock, size_t size );
203
204 /******************************************************************/
205 /*** PORTABILITY CHECK FUNCTIONS *******************************/
206 /******************************************************************/
207 //Because there is the risk that Microsoft Visual C++ might
208 //change in the future, the following function can be called
209 //to see if the assumptions about data sizes are valid. This
210 //function returns TRUE if there is a problem, or FALSE
211 //otherwise.
212 DECMOD_GMP_INTS int GMP_INTS_data_sizes_are_wrong(void);
213
214
215 /******************************************************************/
216 /*** ERROR STRING IDENTIFICATION AND PROCESSING FUNCTIONS *******/
217 /******************************************************************/
218 //These functions are provided because some clients may deal
219 //only with symbolic representations (Tcl/Tk, for example).
220 //
221 //Attempts to identify the passed string as one of the error
222 //strings sanctioned by this module. Returns -1 if not a match
223 //or else the following values.
224 // 0: GMP_INTS_EF_INTOVF_POS
225 // 1: GMP_INTS_EF_INTOVF_NEG
226 // 2: GMP_INTS_EF_INTOVF_TAINT_POS
227 // 3: GMP_INTS_EF_INTOVF_TAINT_NEG
228 DECMOD_GMP_INTS
229 int GMP_INTS_identify_nan_string(const char *s);
230
231 //Returns the sanctioned string for the nan value indicated.
232 //Integers that may be passed are the same as the
233 //indices above. No parameter except 0-3 is allowed.
234 DECMOD_GMP_INTS
235 const char *GMP_INTS_supply_nan_string(int idx);
236
237 /******************************************************************/
238 /*** DEBUG PRINTING FUNCTIONS **********************************/
239 /******************************************************************/
240 //These functions are for printing out integers and limbs
241 //and groups of limbs for unit testing and debugging.
242 //
243 //Prints out a group of limbs, preceded by a description.
244 //n may be 0 and/or the lg pointer supplied may be NULL.
245 DECMOD_GMP_INTS
246 void GMP_INTS_print_limb_group(FILE *stream,
247 GMP_INTS_limb_srcptr lg,
248 GMP_INTS_size_t n,
249 char *desc);
250 //Prints an entire integer for diagnosis.
251 DECMOD_GMP_INTS
252 void GMP_INTS_mpz_print_int(FILE *stream,
253 const GMP_INTS_mpz_struct *arg,
254 char *desc);
255
256 /****************************************************************/
257 /*** MACRO REPLACEMENTS *************************************/
258 /****************************************************************/
259 //The functions here are macros that have been replaced and
260 //made functions for clarity. Speed was sacrificed for clarity.
261 DECMOD_GMP_INTS
262 int GMP_INTS_mpz_get_flags(const GMP_INTS_mpz_struct *arg);
263 //Allows a caller to obtain the flags of an integer.
264 //A non-zero value indicates trouble. To figure out which
265 //trouble, compare against the bit constants defined
266 //with the "flags" field of the structure type, above.
267 DECMOD_GMP_INTS GMP_INTS_size_t GMP_INTS_abs_of_size_t(GMP_INTS_size_t arg);
268 //Returns the absolute value of one of the size arguments used
269 //to indicate number of limbs. This function is useful
270 //because integers natively stored with a negative size
271 //for negative arguments, so the absolute value gives the
272 //number of limbs consumed.
273 DECMOD_GMP_INTS int GMP_INTS_mpz_sgn(const GMP_INTS_mpz_struct *arg);
274 //Returns -1 if integer is negative, 0 if it is zero,
275 //or 1 if it is positive.
276 DECMOD_GMP_INTS int GMP_INTS_mpz_is_neg(const GMP_INTS_mpz_struct *arg);
277 DECMOD_GMP_INTS int GMP_INTS_mpz_is_zero(const GMP_INTS_mpz_struct *arg);
278 DECMOD_GMP_INTS int GMP_INTS_mpz_is_pos(const GMP_INTS_mpz_struct *arg);
279 //These functions return 1 if the condition is met, or 0
280 //otherwise.
281 DECMOD_GMP_INTS int GMP_INTS_mpz_is_odd(const GMP_INTS_mpz_struct *arg);
282 //Returns 1 if the integer is odd, or 0 if it is even.
283 DECMOD_GMP_INTS int GMP_INTS_mpz_is_even(const GMP_INTS_mpz_struct *arg);
284 //Returns 1 if the integer is even, or 0 if it is odd.
285 DECMOD_GMP_INTS void GMP_INTS_mpz_negate(GMP_INTS_mpz_struct *arg);
286 //Negates the number (changes the sign).
287 DECMOD_GMP_INTS
288 void GMP_INTS_mpn_normalize(GMP_INTS_limb_ptr limb_array,
289 GMP_INTS_size_t *idx);
290 //Adjusts an index downward to bypass any most significant
291 //zero limbs. This was a macro in the GNU implementation.
292 //This is for when the size of a result is overestimated
293 //(the most pessimistic estimates must be made when
294 //allocating memory before an operation).
295 DECMOD_GMP_INTS
296 void GMP_INTS_mpn_copy_limbs(GMP_INTS_limb_ptr dest,
297 GMP_INTS_limb_srcptr src,
298 GMP_INTS_size_t n);
299 //Copies limbs from source to destination. This
300 //function replaces a macro that was present in the
301 //GNU code. Again, clarity over speed.
302 /****************************************************************/
303 /*** LOW-LEVEL ARITHMETIC FUNCTIONS *************************/
304 /****************************************************************/
305 //Gives the flags of a result integer as a function of the
306 //flags of its two operands. If the function requires only
307 //one operand, just use zero as the second parameter and the
308 //result will be correct. Handles tainting.
309 DECMOD_GMP_INTS
310 int GMP_INTS_two_op_flags_map(int flags1, int flags2);
311
312 //Adds the single limb s2_limb to the array of limbs s1,
313 //processing carries, and copies the result to the location
314 //res_ptr. res_ptr is assumed to be [at least] the same size
315 //as s1. From the design, s1 and res_ptr may be the
316 //same set of locations. The
317 //result is 1 if there was a carry out of the final limb or
318 //0 otherwise.
319 DECMOD_GMP_INTS
320 GMP_INTS_limb_t GMP_INTS_mpn_add_1 (GMP_INTS_limb_ptr res_ptr,
321 GMP_INTS_limb_srcptr s1_ptr,
322 GMP_INTS_size_t s1_size,
323 GMP_INTS_limb_t s2_limb);
324
325 //Very similar to the addition function. Counts on the single
326 //limb that is being subtracted being not enough to roll over the
327 //integer that is being subtracted from. No harm if this is done
328 //(it just obeys 2-s complement rules) but this was probably not
329 //the intent. From the design, s1 and res_ptr may
330 //be the same set of locations. The
331 //result is 1 if there was a borrow out of the final limb or
332 //0 otherwise.
333 DECMOD_GMP_INTS
334 GMP_INTS_limb_t GMP_INTS_mpn_sub_1(GMP_INTS_limb_ptr res_ptr,
335 GMP_INTS_limb_srcptr s1_ptr,
336 GMP_INTS_size_t s1_size,
337 GMP_INTS_limb_t s2_limb);
338
339 //Multiplies a limb by a group of limbs. The return value is
340 //the unsigned overflow out of the "top", which may be up to
341 //one limb large (i.e. it is more than just a carry, it has
342 //a value besides 0 and 1).
343 DECMOD_GMP_INTS
344 GMP_INTS_limb_t GMP_INTS_mpn_mul_1(GMP_INTS_limb_ptr res_ptr,
345 GMP_INTS_limb_srcptr s1_ptr,
346 GMP_INTS_size_t s1_size,
347 GMP_INTS_limb_t s2_limb);
348
349 //Adds together two groups of limbs of same size. The result
350 //may be the same location as one or both of the two
351 //operands.
352 DECMOD_GMP_INTS
353 GMP_INTS_limb_t GMP_INTS_mpn_add_n(GMP_INTS_limb_ptr res_ptr,
354 GMP_INTS_limb_srcptr s1_ptr,
355 GMP_INTS_limb_srcptr s2_ptr,
356 GMP_INTS_size_t size);
357
358 //This function makes the mapping:
359 // res_ptr = res_ptr + s2_limb * s1_ptr
360 //From the design, it appears that it is alright if
361 //res_ptr and s1_ptr are the same area. The return
362 //value is the excess that that should exist one limb
363 //above the MSL of res_ptr (i.e. it is more than a carry, it
364 //may be larger than one).
365 DECMOD_GMP_INTS
366 GMP_INTS_limb_t GMP_INTS_mpn_addmul_1(GMP_INTS_limb_ptr res_ptr,
367 GMP_INTS_limb_srcptr s1_ptr,
368 GMP_INTS_size_t s1_size,
369 GMP_INTS_limb_t s2_limb);
370
371 //This function adds in general two natural numbers. Numbers must
372 //be arranged so that S2 takes no more limbs than S1, i.e.
373 //LIMBS(s1) >= LIMBS(s2). Memory must be allocated, and there must
374 //be space for the result. Not clear from the design if memory
375 //areas can be coincident, but suspect can.
376 DECMOD_GMP_INTS
377 GMP_INTS_limb_t GMP_INTS_mpn_add(GMP_INTS_limb_ptr res_ptr,
378 GMP_INTS_limb_srcptr s1_ptr,
379 GMP_INTS_size_t s1_size,
380 GMP_INTS_limb_srcptr s2_ptr,
381 GMP_INTS_size_t s2_size);
382
383 //Subtracts two same-size operands. They may be coincident in
384 //memory.
385 DECMOD_GMP_INTS
386 GMP_INTS_limb_t GMP_INTS_mpn_sub_n(GMP_INTS_limb_ptr res_ptr,
387 GMP_INTS_limb_srcptr s1_ptr,
388 GMP_INTS_limb_srcptr s2_ptr,
389 GMP_INTS_size_t size);
390
391 //This function subtracts in general two natural numbers. Numbers must
392 //be arranged so that S2 takes no more limbs than S1, i.e.
393 //LIMBS(s1) >= LIMBS(s2). Memory must be allocated, and there must
394 //be space for the result. Not clear from the design if memory
395 //areas can be coincident. Result is S1-S2.
396 DECMOD_GMP_INTS
397 GMP_INTS_limb_t GMP_INTS_mpn_sub (GMP_INTS_limb_ptr res_ptr,
398 GMP_INTS_limb_srcptr s1_ptr,
399 GMP_INTS_size_t s1_size,
400 GMP_INTS_limb_srcptr s2_ptr,
401 GMP_INTS_size_t s2_size);
402
403 //Shifts UP of size USIZE left by CNT. CNT must be less than the number
404 //of bits per limb, which is at this time 32. "wp" and "up" may be
405 //coincident. Zero count is not allowed. Value returned is the bits shifted
406 //out the left.
407 DECMOD_GMP_INTS
408 GMP_INTS_limb_t GMP_INTS_mpn_lshift(GMP_INTS_limb_ptr wp,
409 GMP_INTS_limb_srcptr up,
410 GMP_INTS_size_t usize,
411 unsigned int cnt);
412
413 //Shifts UP of size USIZE right by CNT. CNT must be less than the number
414 //of bits per limb, which is at this time 32. "wp" and "up" may be
415 //coincident. Zero count is not allowed. Value returned is the bits shifted
416 //out the right.
417 DECMOD_GMP_INTS
418 GMP_INTS_limb_t GMP_INTS_mpn_rshift (GMP_INTS_limb_ptr wp,
419 GMP_INTS_limb_srcptr up,
420 GMP_INTS_size_t usize,
421 unsigned int cnt);
422
423 //Compares two natural numbers of same size and returns the expected
424 //1 iff op1 > op2, -1 if op1 < op2, or 0 if they are equal. Leading
425 //zero limbs are alright and do not affect the result.
426 DECMOD_GMP_INTS
427 int GMP_INTS_mpn_cmp (GMP_INTS_limb_srcptr op1_ptr,
428 GMP_INTS_limb_srcptr op2_ptr,
429 GMP_INTS_size_t size);
430
431 //This is the basic multiplication of two natural numbers, each of
432 //which may occuply many limbs. In the
433 //original GNU MP code, there were several algorithms which could
434 //be selected, depending on the size of the operands and other
435 //factors. This was the most basic case--the basic longhand
436 //multiplication. The code has been pared so that this is the
437 //only case.
438 DECMOD_GMP_INTS
439 void GMP_INTS_mpn_mul_basecase (GMP_INTS_limb_ptr prodp,
440 GMP_INTS_limb_srcptr up,
441 GMP_INTS_size_t usize,
442 GMP_INTS_limb_srcptr vp,
443 GMP_INTS_size_t vsize);
444
445 //This is the basic multiplication of two natural numbers. In the old
446 //GNU MP code, one of several algorithms would be selected. The code
447 //has been pared down so that this is just a passthrough to
448 //GMP_INTS_mpn_mul_basecase(). Only the simplest multiplication
449 //algorithm is used at this point.
450 DECMOD_GMP_INTS
451 void GMP_INTS_mpn_mul_n (GMP_INTS_limb_ptr p,
452 GMP_INTS_limb_srcptr a,
453 GMP_INTS_limb_srcptr b,
454 GMP_INTS_size_t n);
455 //Multiplication of two natural numbers. Value returned is the most
456 //significant limb of the array of predicted size un+vn, rather than
457 //the spillover (this is unlike most functions).
458 DECMOD_GMP_INTS
459 GMP_INTS_limb_t GMP_INTS_mpn_mul(GMP_INTS_limb_ptr prodp,
460 GMP_INTS_limb_srcptr up,
461 GMP_INTS_size_t un,
462 GMP_INTS_limb_srcptr vp,
463 GMP_INTS_size_t vn);
464
465 /******************************************************************/
466 /*** LIMB SPACE REALLOCATION FUNCTIONS *************************/
467 /******************************************************************/
468 DECMOD_GMP_INTS
469 void *GMP_INTS_mpz_realloc (GMP_INTS_mpz_struct *m,
470 GMP_INTS_size_t new_size);
471 //Changes the number of limbs allocated.
472
473 /******************************************************************/
474 /*** PUBLIC INITIALIZATION AND MEMORY MANAGEMENT FUNCTIONS *****/
475 /******************************************************************/
476 //Allocate space for an integer and sets it to zero.
477 //This must be the first call made.
478 DECMOD_GMP_INTS
479 void GMP_INTS_mpz_init (GMP_INTS_mpz_struct *x);
480
481 //Deallocates space for an integer. This must be the
482 //final call made.
483 DECMOD_GMP_INTS
484 void GMP_INTS_mpz_clear (GMP_INTS_mpz_struct *x);
485
486
487 /******************************************************************/
488 /*** PUBLIC ASSIGNMENT FUNCTIONS *******************************/
489 /******************************************************************/
490 //Copies from one integer to another. Must both be allocated and \
491 //not be the same variable.
492 DECMOD_GMP_INTS
493 void GMP_INTS_mpz_copy( GMP_INTS_mpz_struct *dst,
494 const GMP_INTS_mpz_struct *src);
495
496 //Assigns the integer to be the value of an unsigned long.
497 DECMOD_GMP_INTS
498 void GMP_INTS_mpz_set_ui (GMP_INTS_mpz_struct *dest,
499 unsigned long int val);
500
501 //Assigns the integer to be the value of a signed long.
502 DECMOD_GMP_INTS
503 void GMP_INTS_mpz_set_si (GMP_INTS_mpz_struct *dest,
504 signed long int val);
505 //Assigns the integer to be the value of a simple string
506 //(simple = no E notation). Only form handled is
507 // [-]digits.
508 //Other forms will not cause catastrophic failure but might
509 //not behave as expected.
510 DECMOD_GMP_INTS
511 void GMP_INTS_mpz_set_simple_char_str(GMP_INTS_mpz_struct *z,
512 const char *s);
513 //Assigns an arbitary integer to be a number with E notation.
514 //*failure set non-zero if can't parse or set. Number must
515 //be pure integer--no lost precison when scientific notation
516 //is processed.
517 void GMP_INTS_mpz_set_sci_not_num(GMP_INTS_mpz_struct *z,
518 int *failure,
519 const char *s);
520
521 //Attempts to parse an integer using the following three
522 //formats: a)simple integer, b)simple integer with commas,
523 //c)integer in scientific notation. Returns the value of
524 //the integer if parse successful, or 0 and a failure flag
525 //otherwise.
526 void GMP_INTS_mpz_set_general_int(GMP_INTS_mpz_struct *z,
527 int *failure,
528 const char *s);
529
530 //Attempts to parse an integer as either a simple integer,
531 //an integer with commas, or a number in scientific notation
532 //into a UINT32. If the number cannot be parsed into that,
533 //the result is zero and failure is true.
534 void GMP_INTS_mpz_parse_into_uint32(unsigned *result,
535 int *failure,
536 char *s);
537
538 //Swaps a and b. What this does is a swap of the area
539 //pointed to (i.e. the control block). Pointers held in
540 //these blocks are therefore automatically swapped.
541 DECMOD_GMP_INTS
542 void GMP_INTS_mpz_swap(GMP_INTS_mpz_struct *a,
543 GMP_INTS_mpz_struct *b);
544
545 /****************************************************************/
546 /*** PUBLIC INTEGER ARITHMETIC FUNCTIONS ********************/
547 /****************************************************************/
548 //Adds two arbitrary integers to produce an arbitrary result.
549 //The result space must be initialized already.
550 DECMOD_GMP_INTS
551 void GMP_INTS_mpz_add ( GMP_INTS_mpz_struct *w,
552 const GMP_INTS_mpz_struct *u,
553 const GMP_INTS_mpz_struct *v);
554
555 //Adds the integer v to u and produces w. u and w must be
556 //be created already.
557 void GMP_INTS_mpz_add_ui ( GMP_INTS_mpz_struct *w,
558 const GMP_INTS_mpz_struct *u,
559 unsigned long int v);
560
561 //Subtracts two aribtrary integers to produce an arbitrary
562 //result. The result space must be initialized already.
563 DECMOD_GMP_INTS
564 void GMP_INTS_mpz_sub ( GMP_INTS_mpz_struct *w,
565 const GMP_INTS_mpz_struct *u,
566 const GMP_INTS_mpz_struct *v);
567
568 //Subtracts the integer v from u to produce w. u and w must
569 //be created already.
570 void GMP_INTS_mpz_sub_ui ( GMP_INTS_mpz_struct *w,
571 const GMP_INTS_mpz_struct *u,
572 unsigned long int v);
573
574 //Multiplies two arbitrary integers to produce an arbitrary
575 //result. The result space must be initialized already.
576 DECMOD_GMP_INTS
577 void GMP_INTS_mpz_mul ( GMP_INTS_mpz_struct *w,
578 const GMP_INTS_mpz_struct *u,
579 const GMP_INTS_mpz_struct *v);
580
581 //Multiplies the arbitrary integer by a C-native signed
582 //long.
583 DECMOD_GMP_INTS
584 void GMP_INTS_mpz_mul_si ( GMP_INTS_mpz_struct *w,
585 const GMP_INTS_mpz_struct *u,
586 long int v);
587 //Multiplies the arbitrary integer by a C-native unsigned
588 //long.
589 DECMOD_GMP_INTS
590 void GMP_INTS_mpz_mul_ui ( GMP_INTS_mpz_struct *w,
591 const GMP_INTS_mpz_struct *u,
592 unsigned long int v);
593
594 //Divides integers.
595 DECMOD_GMP_INTS
596 void GMP_INTS_mpz_tdiv_qr ( GMP_INTS_mpz_struct *quot,
597 GMP_INTS_mpz_struct *rem,
598 const GMP_INTS_mpz_struct *num,
599 const GMP_INTS_mpz_struct *den);
600
601 //Calculates the factorial. All values <=1 result in a
602 //value of 1.
603 DECMOD_GMP_INTS
604 void GMP_INTS_mpz_fac_ui(GMP_INTS_mpz_struct *result,
605 unsigned long int n);
606
607 //Exponentiates a base to an exponent. 0^0=1, N^0=1. The algorithm
608 //used is successive squaring and multiplying. Not the MOST efficient,
609 //but OK. The result and the base must be different variables.
610 DECMOD_GMP_INTS
611 void GMP_INTS_mpz_pow_ui( GMP_INTS_mpz_struct *result,
612 const GMP_INTS_mpz_struct *base,
613 unsigned exponent);
614
615 //Takes the absolute value of the arbitrary integer passed.
616 DECMOD_GMP_INTS
617 void GMP_INTS_mpz_abs(GMP_INTS_mpz_struct *arg);
618
619 //Calculates the gcd() of the two arguments. If either argument is zero, the
620 //result is automatically 1. If either argument is negative, its absolute
621 //value is used. The two input pointers may not be the same, because doing
622 //that is senseless--it would become a copy operation, because gcd(x,x) = x.
623 //However, the result may be the same as either of the two inputs.
624 DECMOD_GMP_INTS
625 void GMP_INTS_mpz_gcd(GMP_INTS_mpz_struct *result,
626 const GMP_INTS_mpz_struct *arg1,
627 const GMP_INTS_mpz_struct *arg2);
628
629
630 /******************************************************************/
631 /*** PUBLIC CONVERSION AND OUTPUT FUNCTIONS ********************/
632 /******************************************************************/
633
634 //Get an upper bound on the number of characters required for
635 //representing an integer, including minus sign and commas,
636 //Terminating zero, etc. This is just a little wasteful, but
637 //will always reserve enough memory.
638 DECMOD_GMP_INTS
639 int GMP_INTS_mpz_size_in_base_10(const GMP_INTS_mpz_struct *arg);
640
641 //Convert from integer to string. Commas must be
642 //added separately, and there is enough space reserved for
643 //them. This function is only warrantied not to overflow
644 //a buffer allocated using the function above as a sizing
645 //guide.
646 DECMOD_GMP_INTS
647 void GMP_INTS_mpz_to_string(char *out,
648 const GMP_INTS_mpz_struct *in);
649
650 //Prints the integer passed to the stream in a long-hand
651 //format.
652 DECMOD_GMP_INTS
653 void GMP_INTS_mpz_long_int_format_to_stream(FILE *s,
654 const GMP_INTS_mpz_struct *i,
655 const char *desc);
656
657 //Prints the integer raw to a stream--just digits, no extra chars.
658 DECMOD_GMP_INTS
659 void GMP_INTS_mpz_arb_int_raw_to_stream(FILE *s,
660 const GMP_INTS_mpz_struct *i);
661
662 /******************************************************************/
663 /*** COMPARISON AND SIZING FUNCTIONS ***************************/
664 /******************************************************************/
665 //Returns 1 if arbitrary integer will fit in an unsigned integer,
666 //or 0 otherwise.
667 DECMOD_GMP_INTS
668 int GMP_INTS_mpz_fits_uint_p (const GMP_INTS_mpz_struct *src);
669
670 //Returns 1 if arbitrary integer will fit in a signed integer,
671 //or 0 otherwise.
672 DECMOD_GMP_INTS
673 int GMP_INTS_mpz_fits_sint_p (const GMP_INTS_mpz_struct *src);
674
675 //Retrieves an unsigned version of limb zero from the number,
676 //or will return zero if the number is zero. This is the
677 //officially sanctioned way to get the value if it fits in
678 //an unsigned.
679 DECMOD_GMP_INTS
680 unsigned GMP_INTS_mpz_get_limb_zero(const GMP_INTS_mpz_struct *src);
681
682 //Returnes neg value if u<v, 0 if u==v, and 1 if u>v.
683 DECMOD_GMP_INTS
684 int GMP_INTS_mpz_cmp (const GMP_INTS_mpz_struct *u,
685 const GMP_INTS_mpz_struct *v);
686
687 //Compares an arbitrary integer to an unsigned long
688 //and returns relative ordering, <0 if u < v, 0 if u==v,
689 //and >0 if u > v.
690 DECMOD_GMP_INTS
691 int GMP_INTS_mpz_cmp_ui (const GMP_INTS_mpz_struct *u,
692 unsigned long int v_digit);
693 //Compares arbitrary integer to a signed long
694 //and returns relative ordering, <0 if u<v, 0 if u==v,
695 //and >0 if u>v.
696 DECMOD_GMP_INTS
697 int GMP_INTS_mpz_cmp_si (const GMP_INTS_mpz_struct *u,
698 signed long int v_digit);
699
700 //Compares the absolute value of two arbitrary integers.
701 DECMOD_GMP_INTS
702 int GMP_INTS_mpz_cmpabs (const GMP_INTS_mpz_struct *u,
703 const GMP_INTS_mpz_struct *v);
704 //Compares the absolute value of an arbitrary integer and
705 //an unsigned long.
706 DECMOD_GMP_INTS
707 int GMP_INTS_mpz_cmpabs_ui(const GMP_INTS_mpz_struct *u,
708 unsigned long int v_digit);
709
710 /****************************************************************/
711 /*** VERSION CONTROL REPORTING FUNCTIONS ********************/
712 /****************************************************************/
713 DECMOD_GMP_INTS const char *GMP_INTS_cvcinfo(void);
714 DECMOD_GMP_INTS const char *GMP_INTS_hvcinfo(void);
715
716 /* Preprocessor string to allow the H-file version to be
717 ** compiled into the C-file.
718 */
719 #define GMP_INTS_H_VERSION ("$Header$")
720
721 #endif /* GMP_INTS_H_INCLUDED */
722
723 // End of gmp_ints.h.

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