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1 /*
2  * Copyright (c) 2008-2020 Stefan Krah. All rights reserved.
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions
6  * are met:
7  *
8  * 1. Redistributions of source code must retain the above copyright
9  *    notice, this list of conditions and the following disclaimer.
10  *
11  * 2. Redistributions in binary form must reproduce the above copyright
12  *    notice, this list of conditions and the following disclaimer in the
13  *    documentation and/or other materials provided with the distribution.
14  *
15  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS "AS IS" AND
16  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
19  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
25  * SUCH DAMAGE.
26  */
27 
28 
29 #include "mpdecimal.h"
30 
31 #include <assert.h>
32 #include <ctype.h>
33 #include <errno.h>
34 #include <limits.h>
35 #include <locale.h>
36 #include <stdio.h>
37 #include <stdlib.h>
38 #include <string.h>
39 
40 #include "io.h"
41 #include "typearith.h"
42 
43 
44 /* This file contains functions for decimal <-> string conversions, including
45    PEP-3101 formatting for numeric types. */
46 
47 
48 #if defined(__GNUC__) && !defined(__INTEL_COMPILER) && __GNUC__ >= 7
49   #pragma GCC diagnostic ignored "-Wimplicit-fallthrough"
50   #pragma GCC diagnostic ignored "-Wmisleading-indentation"
51 #endif
52 
53 
54 /*
55  * Work around the behavior of tolower() and strcasecmp() in certain
56  * locales. For example, in tr_TR.utf8:
57  *
58  * tolower((unsigned char)'I') == 'I'
59  *
60  * u is the exact uppercase version of l; n is strlen(l) or strlen(l)+1
61  */
62 static inline int
_mpd_strneq(const char * s,const char * l,const char * u,size_t n)63 _mpd_strneq(const char *s, const char *l, const char *u, size_t n)
64 {
65     while (--n != SIZE_MAX) {
66         if (*s != *l && *s != *u) {
67             return 0;
68         }
69         s++; u++; l++;
70     }
71 
72     return 1;
73 }
74 
75 static mpd_ssize_t
strtoexp(const char * s)76 strtoexp(const char *s)
77 {
78     char *end;
79     mpd_ssize_t retval;
80 
81     errno = 0;
82     retval = mpd_strtossize(s, &end, 10);
83     if (errno == 0 && !(*s != '\0' && *end == '\0'))
84         errno = EINVAL;
85 
86     return retval;
87 }
88 
89 /*
90  * Scan 'len' words. The most significant word contains 'r' digits,
91  * the remaining words are full words. Skip dpoint. The string 's' must
92  * consist of digits and an optional single decimal point at 'dpoint'.
93  */
94 static void
string_to_coeff(mpd_uint_t * data,const char * s,const char * dpoint,int r,size_t len)95 string_to_coeff(mpd_uint_t *data, const char *s, const char *dpoint, int r,
96                 size_t len)
97 {
98     int j;
99 
100     if (r > 0) {
101         data[--len] = 0;
102         for (j = 0; j < r; j++, s++) {
103             if (s == dpoint) s++;
104             data[len] = 10 * data[len] + (*s - '0');
105         }
106     }
107 
108     while (--len != SIZE_MAX) {
109         data[len] = 0;
110         for (j = 0; j < MPD_RDIGITS; j++, s++) {
111             if (s == dpoint) s++;
112             data[len] = 10 * data[len] + (*s - '0');
113         }
114     }
115 }
116 
117 /*
118  * Partially verify a numeric string of the form:
119  *
120  *     [cdigits][.][cdigits][eE][+-][edigits]
121  *
122  * If successful, return a pointer to the location of the first
123  * relevant coefficient digit. This digit is either non-zero or
124  * part of one of the following patterns:
125  *
126  *     ["0\x00", "0.\x00", "0.E", "0.e", "0E", "0e"]
127  *
128  * The locations of a single optional dot or indicator are stored
129  * in 'dpoint' and 'exp'.
130  *
131  * The end of the string is stored in 'end'. If an indicator [eE]
132  * occurs without trailing [edigits], the condition is caught
133  * later by strtoexp().
134  */
135 static const char *
scan_dpoint_exp(const char * s,const char ** dpoint,const char ** exp,const char ** end)136 scan_dpoint_exp(const char *s, const char **dpoint, const char **exp,
137                 const char **end)
138 {
139     const char *coeff = NULL;
140 
141     *dpoint = NULL;
142     *exp = NULL;
143     for (; *s != '\0'; s++) {
144         switch (*s) {
145         case '.':
146             if (*dpoint != NULL || *exp != NULL)
147                 return NULL;
148             *dpoint = s;
149             break;
150         case 'E': case 'e':
151             if (*exp != NULL)
152                 return NULL;
153             *exp = s;
154             if (*(s+1) == '+' || *(s+1) == '-')
155                 s++;
156             break;
157         default:
158             if (!isdigit((unsigned char)*s))
159                 return NULL;
160             if (coeff == NULL && *exp == NULL) {
161                 if (*s == '0') {
162                     if (!isdigit((unsigned char)*(s+1)))
163                         if (!(*(s+1) == '.' &&
164                               isdigit((unsigned char)*(s+2))))
165                             coeff = s;
166                 }
167                 else {
168                     coeff = s;
169                 }
170             }
171             break;
172 
173         }
174     }
175 
176     *end = s;
177     return coeff;
178 }
179 
180 /* scan the payload of a NaN */
181 static const char *
scan_payload(const char * s,const char ** end)182 scan_payload(const char *s, const char **end)
183 {
184     const char *coeff;
185 
186     while (*s == '0')
187         s++;
188     coeff = s;
189 
190     while (isdigit((unsigned char)*s))
191         s++;
192     *end = s;
193 
194     return (*s == '\0') ? coeff : NULL;
195 }
196 
197 /* convert a character string to a decimal */
198 void
mpd_qset_string(mpd_t * dec,const char * s,const mpd_context_t * ctx,uint32_t * status)199 mpd_qset_string(mpd_t *dec, const char *s, const mpd_context_t *ctx,
200                 uint32_t *status)
201 {
202     mpd_ssize_t q, r, len;
203     const char *coeff, *end;
204     const char *dpoint = NULL, *exp = NULL;
205     size_t digits;
206     uint8_t sign = MPD_POS;
207 
208     mpd_set_flags(dec, 0);
209     dec->len = 0;
210     dec->exp = 0;
211 
212     /* sign */
213     if (*s == '+') {
214         s++;
215     }
216     else if (*s == '-') {
217         mpd_set_negative(dec);
218         sign = MPD_NEG;
219         s++;
220     }
221 
222     if (_mpd_strneq(s, "nan", "NAN", 3)) { /* NaN */
223         s += 3;
224         mpd_setspecial(dec, sign, MPD_NAN);
225         if (*s == '\0')
226             return;
227         /* validate payload: digits only */
228         if ((coeff = scan_payload(s, &end)) == NULL)
229             goto conversion_error;
230         /* payload consists entirely of zeros */
231         if (*coeff == '\0')
232             return;
233         digits = end - coeff;
234         /* prec >= 1, clamp is 0 or 1 */
235         if (digits > (size_t)(ctx->prec-ctx->clamp))
236             goto conversion_error;
237     } /* sNaN */
238     else if (_mpd_strneq(s, "snan", "SNAN", 4)) {
239         s += 4;
240         mpd_setspecial(dec, sign, MPD_SNAN);
241         if (*s == '\0')
242             return;
243         /* validate payload: digits only */
244         if ((coeff = scan_payload(s, &end)) == NULL)
245             goto conversion_error;
246         /* payload consists entirely of zeros */
247         if (*coeff == '\0')
248             return;
249         digits = end - coeff;
250         if (digits > (size_t)(ctx->prec-ctx->clamp))
251             goto conversion_error;
252     }
253     else if (_mpd_strneq(s, "inf", "INF", 3)) {
254         s += 3;
255         if (*s == '\0' || _mpd_strneq(s, "inity", "INITY", 6)) {
256             /* numeric-value: infinity */
257             mpd_setspecial(dec, sign, MPD_INF);
258             return;
259         }
260         goto conversion_error;
261     }
262     else {
263         /* scan for start of coefficient, decimal point, indicator, end */
264         if ((coeff = scan_dpoint_exp(s, &dpoint, &exp, &end)) == NULL)
265             goto conversion_error;
266 
267         /* numeric-value: [exponent-part] */
268         if (exp) {
269             /* exponent-part */
270             end = exp; exp++;
271             dec->exp = strtoexp(exp);
272             if (errno) {
273                 if (!(errno == ERANGE &&
274                      (dec->exp == MPD_SSIZE_MAX ||
275                       dec->exp == MPD_SSIZE_MIN)))
276                     goto conversion_error;
277             }
278         }
279 
280         digits = end - coeff;
281         if (dpoint) {
282             size_t fracdigits = end-dpoint-1;
283             if (dpoint > coeff) digits--;
284 
285             if (fracdigits > MPD_MAX_PREC) {
286                 goto conversion_error;
287             }
288             if (dec->exp < MPD_SSIZE_MIN+(mpd_ssize_t)fracdigits) {
289                 dec->exp = MPD_SSIZE_MIN;
290             }
291             else {
292                 dec->exp -= (mpd_ssize_t)fracdigits;
293             }
294         }
295         if (digits > MPD_MAX_PREC) {
296             goto conversion_error;
297         }
298         if (dec->exp > MPD_EXP_INF) {
299             dec->exp = MPD_EXP_INF;
300         }
301         if (dec->exp == MPD_SSIZE_MIN) {
302             dec->exp = MPD_SSIZE_MIN+1;
303         }
304     }
305 
306     _mpd_idiv_word(&q, &r, (mpd_ssize_t)digits, MPD_RDIGITS);
307 
308     len = (r == 0) ? q : q+1;
309     if (len == 0) {
310         goto conversion_error; /* GCOV_NOT_REACHED */
311     }
312     if (!mpd_qresize(dec, len, status)) {
313         mpd_seterror(dec, MPD_Malloc_error, status);
314         return;
315     }
316     dec->len = len;
317 
318     string_to_coeff(dec->data, coeff, dpoint, (int)r, len);
319 
320     mpd_setdigits(dec);
321     mpd_qfinalize(dec, ctx, status);
322     return;
323 
324 conversion_error:
325     /* standard wants a positive NaN */
326     mpd_seterror(dec, MPD_Conversion_syntax, status);
327 }
328 
329 /* convert a character string to a decimal, use a maxcontext for conversion */
330 void
mpd_qset_string_exact(mpd_t * dec,const char * s,uint32_t * status)331 mpd_qset_string_exact(mpd_t *dec, const char *s, uint32_t *status)
332 {
333     mpd_context_t maxcontext;
334 
335     mpd_maxcontext(&maxcontext);
336     mpd_qset_string(dec, s, &maxcontext, status);
337 
338     if (*status & (MPD_Inexact|MPD_Rounded|MPD_Clamped)) {
339         /* we want exact results */
340         mpd_seterror(dec, MPD_Invalid_operation, status);
341     }
342     *status &= MPD_Errors;
343 }
344 
345 /* Print word x with n decimal digits to string s. dot is either NULL
346    or the location of a decimal point. */
347 #define EXTRACT_DIGIT(s, x, d, dot) \
348         if (s == dot) *s++ = '.'; *s++ = '0' + (char)(x / d); x %= d
349 static inline char *
word_to_string(char * s,mpd_uint_t x,int n,char * dot)350 word_to_string(char *s, mpd_uint_t x, int n, char *dot)
351 {
352     switch(n) {
353 #ifdef CONFIG_64
354     case 20: EXTRACT_DIGIT(s, x, 10000000000000000000ULL, dot); /* GCOV_NOT_REACHED */
355     case 19: EXTRACT_DIGIT(s, x, 1000000000000000000ULL, dot);
356     case 18: EXTRACT_DIGIT(s, x, 100000000000000000ULL, dot);
357     case 17: EXTRACT_DIGIT(s, x, 10000000000000000ULL, dot);
358     case 16: EXTRACT_DIGIT(s, x, 1000000000000000ULL, dot);
359     case 15: EXTRACT_DIGIT(s, x, 100000000000000ULL, dot);
360     case 14: EXTRACT_DIGIT(s, x, 10000000000000ULL, dot);
361     case 13: EXTRACT_DIGIT(s, x, 1000000000000ULL, dot);
362     case 12: EXTRACT_DIGIT(s, x, 100000000000ULL, dot);
363     case 11: EXTRACT_DIGIT(s, x, 10000000000ULL, dot);
364 #endif
365     case 10: EXTRACT_DIGIT(s, x, 1000000000UL, dot);
366     case 9:  EXTRACT_DIGIT(s, x, 100000000UL, dot);
367     case 8:  EXTRACT_DIGIT(s, x, 10000000UL, dot);
368     case 7:  EXTRACT_DIGIT(s, x, 1000000UL, dot);
369     case 6:  EXTRACT_DIGIT(s, x, 100000UL, dot);
370     case 5:  EXTRACT_DIGIT(s, x, 10000UL, dot);
371     case 4:  EXTRACT_DIGIT(s, x, 1000UL, dot);
372     case 3:  EXTRACT_DIGIT(s, x, 100UL, dot);
373     case 2:  EXTRACT_DIGIT(s, x, 10UL, dot);
374     default: if (s == dot) *s++ = '.'; *s++ = '0' + (char)x;
375     }
376 
377     *s = '\0';
378     return s;
379 }
380 
381 /* Print exponent x to string s. Undefined for MPD_SSIZE_MIN. */
382 static inline char *
exp_to_string(char * s,mpd_ssize_t x)383 exp_to_string(char *s, mpd_ssize_t x)
384 {
385     char sign = '+';
386 
387     if (x < 0) {
388         sign = '-';
389         x = -x;
390     }
391     *s++ = sign;
392 
393     return word_to_string(s, x, mpd_word_digits(x), NULL);
394 }
395 
396 /* Print the coefficient of dec to string s. len(dec) > 0. */
397 static inline char *
coeff_to_string(char * s,const mpd_t * dec)398 coeff_to_string(char *s, const mpd_t *dec)
399 {
400     mpd_uint_t x;
401     mpd_ssize_t i;
402 
403     /* most significant word */
404     x = mpd_msword(dec);
405     s = word_to_string(s, x, mpd_word_digits(x), NULL);
406 
407     /* remaining full words */
408     for (i=dec->len-2; i >= 0; --i) {
409         x = dec->data[i];
410         s = word_to_string(s, x, MPD_RDIGITS, NULL);
411     }
412 
413     return s;
414 }
415 
416 /* Print the coefficient of dec to string s. len(dec) > 0. dot is either
417    NULL or a pointer to the location of a decimal point. */
418 static inline char *
coeff_to_string_dot(char * s,char * dot,const mpd_t * dec)419 coeff_to_string_dot(char *s, char *dot, const mpd_t *dec)
420 {
421     mpd_uint_t x;
422     mpd_ssize_t i;
423 
424     /* most significant word */
425     x = mpd_msword(dec);
426     s = word_to_string(s, x, mpd_word_digits(x), dot);
427 
428     /* remaining full words */
429     for (i=dec->len-2; i >= 0; --i) {
430         x = dec->data[i];
431         s = word_to_string(s, x, MPD_RDIGITS, dot);
432     }
433 
434     return s;
435 }
436 
437 /* Format type */
438 #define MPD_FMT_LOWER      0x00000000
439 #define MPD_FMT_UPPER      0x00000001
440 #define MPD_FMT_TOSCI      0x00000002
441 #define MPD_FMT_TOENG      0x00000004
442 #define MPD_FMT_EXP        0x00000008
443 #define MPD_FMT_FIXED      0x00000010
444 #define MPD_FMT_PERCENT    0x00000020
445 #define MPD_FMT_SIGN_SPACE 0x00000040
446 #define MPD_FMT_SIGN_PLUS  0x00000080
447 
448 /* Default place of the decimal point for MPD_FMT_TOSCI, MPD_FMT_EXP */
449 #define MPD_DEFAULT_DOTPLACE 1
450 
451 /*
452  * Set *result to the string representation of a decimal. Return the length
453  * of *result, not including the terminating '\0' character.
454  *
455  * Formatting is done according to 'flags'. A return value of -1 with *result
456  * set to NULL indicates MPD_Malloc_error.
457  *
458  * 'dplace' is the default place of the decimal point. It is always set to
459  * MPD_DEFAULT_DOTPLACE except for zeros in combination with MPD_FMT_EXP.
460  */
461 static mpd_ssize_t
_mpd_to_string(char ** result,const mpd_t * dec,int flags,mpd_ssize_t dplace)462 _mpd_to_string(char **result, const mpd_t *dec, int flags, mpd_ssize_t dplace)
463 {
464     char *decstring = NULL, *cp = NULL;
465     mpd_ssize_t ldigits;
466     mpd_ssize_t mem = 0, k;
467 
468     if (mpd_isspecial(dec)) {
469 
470         mem = sizeof "-Infinity%";
471         if (mpd_isnan(dec) && dec->len > 0) {
472             /* diagnostic code */
473             mem += dec->digits;
474         }
475         cp = decstring = mpd_alloc(mem, sizeof *decstring);
476         if (cp == NULL) {
477             *result = NULL;
478             return -1;
479         }
480 
481         if (mpd_isnegative(dec)) {
482             *cp++ = '-';
483         }
484         else if (flags&MPD_FMT_SIGN_SPACE) {
485             *cp++ = ' ';
486         }
487         else if (flags&MPD_FMT_SIGN_PLUS) {
488             *cp++ = '+';
489         }
490 
491         if (mpd_isnan(dec)) {
492             if (mpd_isqnan(dec)) {
493                 strcpy(cp, "NaN");
494                 cp += 3;
495             }
496             else {
497                 strcpy(cp, "sNaN");
498                 cp += 4;
499             }
500             if (dec->len > 0) { /* diagnostic code */
501                 cp = coeff_to_string(cp, dec);
502             }
503         }
504         else if (mpd_isinfinite(dec)) {
505             strcpy(cp, "Infinity");
506             cp += 8;
507         }
508         else { /* debug */
509             abort(); /* GCOV_NOT_REACHED */
510         }
511     }
512     else {
513         assert(dec->len > 0);
514 
515         /*
516          * For easier manipulation of the decimal point's location
517          * and the exponent that is finally printed, the number is
518          * rescaled to a virtual representation with exp = 0. Here
519          * ldigits denotes the number of decimal digits to the left
520          * of the decimal point and remains constant once initialized.
521          *
522          * dplace is the location of the decimal point relative to
523          * the start of the coefficient. Note that 3) always holds
524          * when dplace is shifted.
525          *
526          *   1) ldigits := dec->digits - dec->exp
527          *   2) dplace  := ldigits            (initially)
528          *   3) exp     := ldigits - dplace   (initially exp = 0)
529          *
530          *   0.00000_.____._____000000.
531          *    ^      ^    ^           ^
532          *    |      |    |           |
533          *    |      |    |           `- dplace >= digits
534          *    |      |    `- dplace in the middle of the coefficient
535          *    |      ` dplace = 1 (after the first coefficient digit)
536          *    `- dplace <= 0
537          */
538 
539         ldigits = dec->digits + dec->exp;
540 
541         if (flags&MPD_FMT_EXP) {
542             ;
543         }
544         else if (flags&MPD_FMT_FIXED || (dec->exp <= 0 && ldigits > -6)) {
545             /* MPD_FMT_FIXED: always use fixed point notation.
546              * MPD_FMT_TOSCI, MPD_FMT_TOENG: for a certain range,
547              * override exponent notation. */
548             dplace = ldigits;
549         }
550         else if (flags&MPD_FMT_TOENG) {
551             if (mpd_iszero(dec)) {
552                 /* If the exponent is divisible by three,
553                  * dplace = 1. Otherwise, move dplace one
554                  * or two places to the left. */
555                 dplace = -1 + mod_mpd_ssize_t(dec->exp+2, 3);
556             }
557             else { /* ldigits-1 is the adjusted exponent, which
558                     * should be divisible by three. If not, move
559                     * dplace one or two places to the right. */
560                 dplace += mod_mpd_ssize_t(ldigits-1, 3);
561             }
562         }
563 
564         /*
565          * Basic space requirements:
566          *
567          * [-][.][coeffdigits][E][-][expdigits+1][%]['\0']
568          *
569          * If the decimal point lies outside of the coefficient digits,
570          * space is adjusted accordingly.
571          */
572         if (dplace <= 0) {
573             mem = -dplace + dec->digits + 2;
574         }
575         else if (dplace >= dec->digits) {
576             mem = dplace;
577         }
578         else {
579             mem = dec->digits;
580         }
581         mem += (MPD_EXPDIGITS+1+6);
582 
583         cp = decstring = mpd_alloc(mem, sizeof *decstring);
584         if (cp == NULL) {
585             *result = NULL;
586             return -1;
587         }
588 
589 
590         if (mpd_isnegative(dec)) {
591             *cp++ = '-';
592         }
593         else if (flags&MPD_FMT_SIGN_SPACE) {
594             *cp++ = ' ';
595         }
596         else if (flags&MPD_FMT_SIGN_PLUS) {
597             *cp++ = '+';
598         }
599 
600         if (dplace <= 0) {
601             /* space: -dplace+dec->digits+2 */
602             *cp++ = '0';
603             *cp++ = '.';
604             for (k = 0; k < -dplace; k++) {
605                 *cp++ = '0';
606             }
607             cp = coeff_to_string(cp, dec);
608         }
609         else if (dplace >= dec->digits) {
610             /* space: dplace */
611             cp = coeff_to_string(cp, dec);
612             for (k = 0; k < dplace-dec->digits; k++) {
613                 *cp++ = '0';
614             }
615         }
616         else {
617             /* space: dec->digits+1 */
618             cp = coeff_to_string_dot(cp, cp+dplace, dec);
619         }
620 
621         /*
622          * Conditions for printing an exponent:
623          *
624          *   MPD_FMT_TOSCI, MPD_FMT_TOENG: only if ldigits != dplace
625          *   MPD_FMT_FIXED:                never (ldigits == dplace)
626          *   MPD_FMT_EXP:                  always
627          */
628         if (ldigits != dplace || flags&MPD_FMT_EXP) {
629             /* space: expdigits+2 */
630             *cp++ = (flags&MPD_FMT_UPPER) ? 'E' : 'e';
631             cp = exp_to_string(cp, ldigits-dplace);
632         }
633     }
634 
635     if (flags&MPD_FMT_PERCENT) {
636         *cp++ = '%';
637     }
638 
639     assert(cp < decstring+mem);
640     assert(cp-decstring < MPD_SSIZE_MAX);
641 
642     *cp = '\0';
643     *result = decstring;
644     return (mpd_ssize_t)(cp-decstring);
645 }
646 
647 char *
mpd_to_sci(const mpd_t * dec,int fmt)648 mpd_to_sci(const mpd_t *dec, int fmt)
649 {
650     char *res;
651     int flags = MPD_FMT_TOSCI;
652 
653     flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER;
654     (void)_mpd_to_string(&res, dec, flags, MPD_DEFAULT_DOTPLACE);
655     return res;
656 }
657 
658 char *
mpd_to_eng(const mpd_t * dec,int fmt)659 mpd_to_eng(const mpd_t *dec, int fmt)
660 {
661     char *res;
662     int flags = MPD_FMT_TOENG;
663 
664     flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER;
665     (void)_mpd_to_string(&res, dec, flags, MPD_DEFAULT_DOTPLACE);
666     return res;
667 }
668 
669 mpd_ssize_t
mpd_to_sci_size(char ** res,const mpd_t * dec,int fmt)670 mpd_to_sci_size(char **res, const mpd_t *dec, int fmt)
671 {
672     int flags = MPD_FMT_TOSCI;
673 
674     flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER;
675     return _mpd_to_string(res, dec, flags, MPD_DEFAULT_DOTPLACE);
676 }
677 
678 mpd_ssize_t
mpd_to_eng_size(char ** res,const mpd_t * dec,int fmt)679 mpd_to_eng_size(char **res, const mpd_t *dec, int fmt)
680 {
681     int flags = MPD_FMT_TOENG;
682 
683     flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER;
684     return _mpd_to_string(res, dec, flags, MPD_DEFAULT_DOTPLACE);
685 }
686 
687 /* Copy a single UTF-8 char to dest. See: The Unicode Standard, version 5.2,
688    chapter 3.9: Well-formed UTF-8 byte sequences. */
689 static int
_mpd_copy_utf8(char dest[5],const char * s)690 _mpd_copy_utf8(char dest[5], const char *s)
691 {
692     const unsigned char *cp = (const unsigned char *)s;
693     unsigned char lb, ub;
694     int count, i;
695 
696 
697     if (*cp == 0) {
698         /* empty string */
699         dest[0] = '\0';
700         return 0;
701     }
702     else if (*cp <= 0x7f) {
703         /* ascii */
704         dest[0] = *cp;
705         dest[1] = '\0';
706         return 1;
707     }
708     else if (0xc2 <= *cp && *cp <= 0xdf) {
709         lb = 0x80; ub = 0xbf;
710         count = 2;
711     }
712     else if (*cp == 0xe0) {
713         lb = 0xa0; ub = 0xbf;
714         count = 3;
715     }
716     else if (*cp <= 0xec) {
717         lb = 0x80; ub = 0xbf;
718         count = 3;
719     }
720     else if (*cp == 0xed) {
721         lb = 0x80; ub = 0x9f;
722         count = 3;
723     }
724     else if (*cp <= 0xef) {
725         lb = 0x80; ub = 0xbf;
726         count = 3;
727     }
728     else if (*cp == 0xf0) {
729         lb = 0x90; ub = 0xbf;
730         count = 4;
731     }
732     else if (*cp <= 0xf3) {
733         lb = 0x80; ub = 0xbf;
734         count = 4;
735     }
736     else if (*cp == 0xf4) {
737         lb = 0x80; ub = 0x8f;
738         count = 4;
739     }
740     else {
741         /* invalid */
742         goto error;
743     }
744 
745     dest[0] = *cp++;
746     if (*cp < lb || ub < *cp) {
747         goto error;
748     }
749     dest[1] = *cp++;
750     for (i = 2; i < count; i++) {
751         if (*cp < 0x80 || 0xbf < *cp) {
752             goto error;
753         }
754         dest[i] = *cp++;
755     }
756     dest[i] = '\0';
757 
758     return count;
759 
760 error:
761     dest[0] = '\0';
762     return -1;
763 }
764 
765 int
mpd_validate_lconv(mpd_spec_t * spec)766 mpd_validate_lconv(mpd_spec_t *spec)
767 {
768     size_t n;
769 #if CHAR_MAX == SCHAR_MAX
770     const char *cp = spec->grouping;
771     while (*cp != '\0') {
772         if (*cp++ < 0) {
773             return -1;
774         }
775     }
776 #endif
777     n = strlen(spec->dot);
778     if (n == 0 || n > 4) {
779         return -1;
780     }
781     if (strlen(spec->sep) > 4) {
782         return -1;
783     }
784 
785     return 0;
786 }
787 
788 int
mpd_parse_fmt_str(mpd_spec_t * spec,const char * fmt,int caps)789 mpd_parse_fmt_str(mpd_spec_t *spec, const char *fmt, int caps)
790 {
791     char *cp = (char *)fmt;
792     int have_align = 0, n;
793 
794     /* defaults */
795     spec->min_width = 0;
796     spec->prec = -1;
797     spec->type = caps ? 'G' : 'g';
798     spec->align = '>';
799     spec->sign = '-';
800     spec->dot = "";
801     spec->sep = "";
802     spec->grouping = "";
803 
804 
805     /* presume that the first character is a UTF-8 fill character */
806     if ((n = _mpd_copy_utf8(spec->fill, cp)) < 0) {
807         return 0;
808     }
809 
810     /* alignment directive, prefixed by a fill character */
811     if (*cp && (*(cp+n) == '<' || *(cp+n) == '>' ||
812                 *(cp+n) == '=' || *(cp+n) == '^')) {
813         cp += n;
814         spec->align = *cp++;
815         have_align = 1;
816     } /* alignment directive */
817     else {
818         /* default fill character */
819         spec->fill[0] = ' ';
820         spec->fill[1] = '\0';
821         if (*cp == '<' || *cp == '>' ||
822             *cp == '=' || *cp == '^') {
823             spec->align = *cp++;
824             have_align = 1;
825         }
826     }
827 
828     /* sign formatting */
829     if (*cp == '+' || *cp == '-' || *cp == ' ') {
830         spec->sign = *cp++;
831     }
832 
833     /* zero padding */
834     if (*cp == '0') {
835         /* zero padding implies alignment, which should not be
836          * specified twice. */
837         if (have_align) {
838             return 0;
839         }
840         spec->align = 'z';
841         spec->fill[0] = *cp++;
842         spec->fill[1] = '\0';
843     }
844 
845     /* minimum width */
846     if (isdigit((unsigned char)*cp)) {
847         if (*cp == '0') {
848             return 0;
849         }
850         errno = 0;
851         spec->min_width = mpd_strtossize(cp, &cp, 10);
852         if (errno == ERANGE || errno == EINVAL) {
853             return 0;
854         }
855     }
856 
857     /* thousands separator */
858     if (*cp == ',') {
859         spec->dot = ".";
860         spec->sep = ",";
861         spec->grouping = "\003\003";
862         cp++;
863     }
864 
865     /* fraction digits or significant digits */
866     if (*cp == '.') {
867         cp++;
868         if (!isdigit((unsigned char)*cp)) {
869             return 0;
870         }
871         errno = 0;
872         spec->prec = mpd_strtossize(cp, &cp, 10);
873         if (errno == ERANGE || errno == EINVAL) {
874             return 0;
875         }
876     }
877 
878     /* type */
879     if (*cp == 'E' || *cp == 'e' || *cp == 'F' || *cp == 'f' ||
880         *cp == 'G' || *cp == 'g' || *cp == '%') {
881         spec->type = *cp++;
882     }
883     else if (*cp == 'N' || *cp == 'n') {
884         /* locale specific conversion */
885         struct lconv *lc;
886         /* separator has already been specified */
887         if (*spec->sep) {
888             return 0;
889         }
890         spec->type = *cp++;
891         spec->type = (spec->type == 'N') ? 'G' : 'g';
892         lc = localeconv();
893         spec->dot = lc->decimal_point;
894         spec->sep = lc->thousands_sep;
895         spec->grouping = lc->grouping;
896         if (mpd_validate_lconv(spec) < 0) {
897             return 0; /* GCOV_NOT_REACHED */
898         }
899     }
900 
901     /* check correctness */
902     if (*cp != '\0') {
903         return 0;
904     }
905 
906     return 1;
907 }
908 
909 /*
910  * The following functions assume that spec->min_width <= MPD_MAX_PREC, which
911  * is made sure in mpd_qformat_spec. Then, even with a spec that inserts a
912  * four-byte separator after each digit, nbytes in the following struct
913  * cannot overflow.
914  */
915 
916 /* Multibyte string */
917 typedef struct {
918     mpd_ssize_t nbytes; /* length in bytes */
919     mpd_ssize_t nchars; /* length in chars */
920     mpd_ssize_t cur;    /* current write index */
921     char *data;
922 } mpd_mbstr_t;
923 
924 static inline void
_mpd_bcopy(char * dest,const char * src,mpd_ssize_t n)925 _mpd_bcopy(char *dest, const char *src, mpd_ssize_t n)
926 {
927     while (--n >= 0) {
928         dest[n] = src[n];
929     }
930 }
931 
932 static inline void
_mbstr_copy_char(mpd_mbstr_t * dest,const char * src,mpd_ssize_t n)933 _mbstr_copy_char(mpd_mbstr_t *dest, const char *src, mpd_ssize_t n)
934 {
935     dest->nbytes += n;
936     dest->nchars += (n > 0 ? 1 : 0);
937     dest->cur -= n;
938 
939     if (dest->data != NULL) {
940         _mpd_bcopy(dest->data+dest->cur, src, n);
941     }
942 }
943 
944 static inline void
_mbstr_copy_ascii(mpd_mbstr_t * dest,const char * src,mpd_ssize_t n)945 _mbstr_copy_ascii(mpd_mbstr_t *dest, const char *src, mpd_ssize_t n)
946 {
947     dest->nbytes += n;
948     dest->nchars += n;
949     dest->cur -= n;
950 
951     if (dest->data != NULL) {
952         _mpd_bcopy(dest->data+dest->cur, src, n);
953     }
954 }
955 
956 static inline void
_mbstr_copy_pad(mpd_mbstr_t * dest,mpd_ssize_t n)957 _mbstr_copy_pad(mpd_mbstr_t *dest, mpd_ssize_t n)
958 {
959     dest->nbytes += n;
960     dest->nchars += n;
961     dest->cur -= n;
962 
963     if (dest->data != NULL) {
964         char *cp = dest->data + dest->cur;
965         while (--n >= 0) {
966             cp[n] = '0';
967         }
968     }
969 }
970 
971 /*
972  * Copy a numeric string to dest->data, adding separators in the integer
973  * part according to spec->grouping. If leading zero padding is enabled
974  * and the result is smaller than spec->min_width, continue adding zeros
975  * and separators until the minimum width is reached.
976  *
977  * The final length of dest->data is stored in dest->nbytes. The number
978  * of UTF-8 characters is stored in dest->nchars.
979  *
980  * First run (dest->data == NULL): determine the length of the result
981  * string and store it in dest->nbytes.
982  *
983  * Second run (write to dest->data): data is written in chunks and in
984  * reverse order, starting with the rest of the numeric string.
985  */
986 static void
_mpd_add_sep_dot(mpd_mbstr_t * dest,const char * sign,const char * src,mpd_ssize_t n_src,const char * dot,const char * rest,mpd_ssize_t n_rest,const mpd_spec_t * spec)987 _mpd_add_sep_dot(mpd_mbstr_t *dest,
988                  const char *sign, /* location of optional sign */
989                  const char *src, mpd_ssize_t n_src, /* integer part and length */
990                  const char *dot, /* location of optional decimal point */
991                  const char *rest, mpd_ssize_t n_rest, /* remaining part and length */
992                  const mpd_spec_t *spec)
993 {
994     mpd_ssize_t n_sep, n_sign, consume;
995     const char *g;
996     int pad = 0;
997 
998     n_sign = sign ? 1 : 0;
999     n_sep = (mpd_ssize_t)strlen(spec->sep);
1000     /* Initial write index: set to location of '\0' in the output string.
1001      * Irrelevant for the first run. */
1002     dest->cur = dest->nbytes;
1003     dest->nbytes = dest->nchars = 0;
1004 
1005     _mbstr_copy_ascii(dest, rest, n_rest);
1006 
1007     if (dot) {
1008         _mbstr_copy_char(dest, dot, (mpd_ssize_t)strlen(dot));
1009     }
1010 
1011     g = spec->grouping;
1012     consume = *g;
1013     while (1) {
1014         /* If the group length is 0 or CHAR_MAX or greater than the
1015          * number of source bytes, consume all remaining bytes. */
1016         if (*g == 0 || *g == CHAR_MAX || consume > n_src) {
1017             consume = n_src;
1018         }
1019         n_src -= consume;
1020         if (pad) {
1021             _mbstr_copy_pad(dest, consume);
1022         }
1023         else {
1024             _mbstr_copy_ascii(dest, src+n_src, consume);
1025         }
1026 
1027         if (n_src == 0) {
1028             /* Either the real source of intpart digits or the virtual
1029              * source of padding zeros is exhausted. */
1030             if (spec->align == 'z' &&
1031                 dest->nchars + n_sign < spec->min_width) {
1032                 /* Zero padding is set and length < min_width:
1033                  * Generate n_src additional characters. */
1034                 n_src = spec->min_width - (dest->nchars + n_sign);
1035                 /* Next iteration:
1036                  *   case *g == 0 || *g == CHAR_MAX:
1037                  *      consume all padding characters
1038                  *   case consume < g*:
1039                  *      fill remainder of current group
1040                  *   case consume == g*
1041                  *      copying is a no-op */
1042                 consume = *g - consume;
1043                 /* Switch on virtual source of zeros. */
1044                 pad = 1;
1045                 continue;
1046             }
1047             break;
1048         }
1049 
1050         if (n_sep > 0) {
1051             /* If padding is switched on, separators are counted
1052              * as padding characters. This rule does not apply if
1053              * the separator would be the first character of the
1054              * result string. */
1055             if (pad && n_src > 1) n_src -= 1;
1056             _mbstr_copy_char(dest, spec->sep, n_sep);
1057         }
1058 
1059         /* If non-NUL, use the next value for grouping. */
1060         if (*g && *(g+1)) g++;
1061         consume = *g;
1062     }
1063 
1064     if (sign) {
1065         _mbstr_copy_ascii(dest, sign, 1);
1066     }
1067 
1068     if (dest->data) {
1069         dest->data[dest->nbytes] = '\0';
1070     }
1071 }
1072 
1073 /*
1074  * Convert a numeric-string to its locale-specific appearance.
1075  * The string must have one of these forms:
1076  *
1077  *     1) [sign] digits [exponent-part]
1078  *     2) [sign] digits '.' [digits] [exponent-part]
1079  *
1080  * Not allowed, since _mpd_to_string() never returns this form:
1081  *
1082  *     3) [sign] '.' digits [exponent-part]
1083  *
1084  * Input: result->data := original numeric string (ASCII)
1085  *        result->bytes := strlen(result->data)
1086  *        result->nchars := strlen(result->data)
1087  *
1088  * Output: result->data := modified or original string
1089  *         result->bytes := strlen(result->data)
1090  *         result->nchars := number of characters (possibly UTF-8)
1091  */
1092 static int
_mpd_apply_lconv(mpd_mbstr_t * result,const mpd_spec_t * spec,uint32_t * status)1093 _mpd_apply_lconv(mpd_mbstr_t *result, const mpd_spec_t *spec, uint32_t *status)
1094 {
1095     const char *sign = NULL, *intpart = NULL, *dot = NULL;
1096     const char *rest, *dp;
1097     char *decstring;
1098     mpd_ssize_t n_int, n_rest;
1099 
1100     /* original numeric string */
1101     dp = result->data;
1102 
1103     /* sign */
1104     if (*dp == '+' || *dp == '-' || *dp == ' ') {
1105         sign = dp++;
1106     }
1107     /* integer part */
1108     assert(isdigit((unsigned char)*dp));
1109     intpart = dp++;
1110     while (isdigit((unsigned char)*dp)) {
1111         dp++;
1112     }
1113     n_int = (mpd_ssize_t)(dp-intpart);
1114     /* decimal point */
1115     if (*dp == '.') {
1116         dp++; dot = spec->dot;
1117     }
1118     /* rest */
1119     rest = dp;
1120     n_rest = result->nbytes - (mpd_ssize_t)(dp-result->data);
1121 
1122     if (dot == NULL && (*spec->sep == '\0' || *spec->grouping == '\0')) {
1123         /* _mpd_add_sep_dot() would not change anything */
1124         return 1;
1125     }
1126 
1127     /* Determine the size of the new decimal string after inserting the
1128      * decimal point, optional separators and optional padding. */
1129     decstring = result->data;
1130     result->data = NULL;
1131     _mpd_add_sep_dot(result, sign, intpart, n_int, dot,
1132                      rest, n_rest, spec);
1133 
1134     result->data = mpd_alloc(result->nbytes+1, 1);
1135     if (result->data == NULL) {
1136         *status |= MPD_Malloc_error;
1137         mpd_free(decstring);
1138         return 0;
1139     }
1140 
1141     /* Perform actual writes. */
1142     _mpd_add_sep_dot(result, sign, intpart, n_int, dot,
1143                      rest, n_rest, spec);
1144 
1145     mpd_free(decstring);
1146     return 1;
1147 }
1148 
1149 /* Add padding to the formatted string if necessary. */
1150 static int
_mpd_add_pad(mpd_mbstr_t * result,const mpd_spec_t * spec,uint32_t * status)1151 _mpd_add_pad(mpd_mbstr_t *result, const mpd_spec_t *spec, uint32_t *status)
1152 {
1153     if (result->nchars < spec->min_width) {
1154         mpd_ssize_t add_chars, add_bytes;
1155         size_t lpad = 0, rpad = 0;
1156         size_t n_fill, len, i, j;
1157         char align = spec->align;
1158         uint8_t err = 0;
1159         char *cp;
1160 
1161         n_fill = strlen(spec->fill);
1162         add_chars = (spec->min_width - result->nchars);
1163         /* max value: MPD_MAX_PREC * 4 */
1164         add_bytes = add_chars * (mpd_ssize_t)n_fill;
1165 
1166         cp = result->data = mpd_realloc(result->data,
1167                                         result->nbytes+add_bytes+1,
1168                                         sizeof *result->data, &err);
1169         if (err) {
1170             *status |= MPD_Malloc_error;
1171             mpd_free(result->data);
1172             return 0;
1173         }
1174 
1175         if (align == 'z') {
1176             align = '=';
1177         }
1178 
1179         if (align == '<') {
1180             rpad = add_chars;
1181         }
1182         else if (align == '>' || align == '=') {
1183             lpad = add_chars;
1184         }
1185         else { /* align == '^' */
1186             lpad = add_chars/2;
1187             rpad = add_chars-lpad;
1188         }
1189 
1190         len = result->nbytes;
1191         if (align == '=' && (*cp == '-' || *cp == '+' || *cp == ' ')) {
1192             /* leave sign in the leading position */
1193             cp++; len--;
1194         }
1195 
1196         memmove(cp+n_fill*lpad, cp, len);
1197         for (i = 0; i < lpad; i++) {
1198             for (j = 0; j < n_fill; j++) {
1199                 cp[i*n_fill+j] = spec->fill[j];
1200             }
1201         }
1202         cp += (n_fill*lpad + len);
1203         for (i = 0; i < rpad; i++) {
1204             for (j = 0; j < n_fill; j++) {
1205                 cp[i*n_fill+j] = spec->fill[j];
1206             }
1207         }
1208 
1209         result->nbytes += add_bytes;
1210         result->nchars += add_chars;
1211         result->data[result->nbytes] = '\0';
1212     }
1213 
1214     return 1;
1215 }
1216 
1217 /* Round a number to prec digits. The adjusted exponent stays the same
1218    or increases by one if rounding up crosses a power of ten boundary.
1219    If result->digits would exceed MPD_MAX_PREC+1, MPD_Invalid_operation
1220    is set and the result is NaN. */
1221 static inline void
_mpd_round(mpd_t * result,const mpd_t * a,mpd_ssize_t prec,const mpd_context_t * ctx,uint32_t * status)1222 _mpd_round(mpd_t *result, const mpd_t *a, mpd_ssize_t prec,
1223            const mpd_context_t *ctx, uint32_t *status)
1224 {
1225     mpd_ssize_t exp = a->exp + a->digits - prec;
1226 
1227     if (prec <= 0) {
1228         mpd_seterror(result, MPD_Invalid_operation, status); /* GCOV_NOT_REACHED */
1229         return; /* GCOV_NOT_REACHED */
1230     }
1231     if (mpd_isspecial(a) || mpd_iszero(a)) {
1232         mpd_qcopy(result, a, status); /* GCOV_NOT_REACHED */
1233         return; /* GCOV_NOT_REACHED */
1234     }
1235 
1236     mpd_qrescale_fmt(result, a, exp, ctx, status);
1237     if (result->digits > prec) {
1238         mpd_qrescale_fmt(result, result, exp+1, ctx, status);
1239     }
1240 }
1241 
1242 /*
1243  * Return the string representation of an mpd_t, formatted according to 'spec'.
1244  * The format specification is assumed to be valid. Memory errors are indicated
1245  * as usual. This function is quiet.
1246  */
1247 char *
mpd_qformat_spec(const mpd_t * dec,const mpd_spec_t * spec,const mpd_context_t * ctx,uint32_t * status)1248 mpd_qformat_spec(const mpd_t *dec, const mpd_spec_t *spec,
1249                  const mpd_context_t *ctx, uint32_t *status)
1250 {
1251     mpd_uint_t dt[MPD_MINALLOC_MAX];
1252     mpd_t tmp = {MPD_STATIC|MPD_STATIC_DATA,0,0,0,MPD_MINALLOC_MAX,dt};
1253     mpd_ssize_t dplace = MPD_DEFAULT_DOTPLACE;
1254     mpd_mbstr_t result;
1255     mpd_spec_t stackspec;
1256     char type = spec->type;
1257     int flags = 0;
1258 
1259 
1260     if (spec->min_width > MPD_MAX_PREC) {
1261         *status |= MPD_Invalid_operation;
1262         return NULL;
1263     }
1264 
1265     if (isupper((unsigned char)type)) {
1266         type = (char)tolower((unsigned char)type);
1267         flags |= MPD_FMT_UPPER;
1268     }
1269     if (spec->sign == ' ') {
1270         flags |= MPD_FMT_SIGN_SPACE;
1271     }
1272     else if (spec->sign == '+') {
1273         flags |= MPD_FMT_SIGN_PLUS;
1274     }
1275 
1276     if (mpd_isspecial(dec)) {
1277         if (spec->align == 'z') {
1278             stackspec = *spec;
1279             stackspec.fill[0] = ' ';
1280             stackspec.fill[1] = '\0';
1281             stackspec.align = '>';
1282             spec = &stackspec;
1283         }
1284         assert(strlen(spec->fill) == 1); /* annotation for scan-build */
1285         if (type == '%') {
1286             flags |= MPD_FMT_PERCENT;
1287         }
1288     }
1289     else {
1290         uint32_t workstatus = 0;
1291         mpd_ssize_t prec;
1292 
1293         switch (type) {
1294         case 'g': flags |= MPD_FMT_TOSCI; break;
1295         case 'e': flags |= MPD_FMT_EXP; break;
1296         case '%': flags |= MPD_FMT_PERCENT;
1297                   if (!mpd_qcopy(&tmp, dec, status)) {
1298                       return NULL;
1299                   }
1300                   tmp.exp += 2;
1301                   dec = &tmp;
1302                   type = 'f'; /* fall through */
1303         case 'f': flags |= MPD_FMT_FIXED; break;
1304         default: abort(); /* debug: GCOV_NOT_REACHED */
1305         }
1306 
1307         if (spec->prec >= 0) {
1308             if (spec->prec > MPD_MAX_PREC) {
1309                 *status |= MPD_Invalid_operation;
1310                 goto error;
1311             }
1312 
1313             switch (type) {
1314             case 'g':
1315                 prec = (spec->prec == 0) ? 1 : spec->prec;
1316                 if (dec->digits > prec) {
1317                     _mpd_round(&tmp, dec, prec, ctx,
1318                                &workstatus);
1319                     dec = &tmp;
1320                 }
1321                 break;
1322             case 'e':
1323                 if (mpd_iszero(dec)) {
1324                     dplace = 1-spec->prec;
1325                 }
1326                 else {
1327                     _mpd_round(&tmp, dec, spec->prec+1, ctx,
1328                                &workstatus);
1329                     dec = &tmp;
1330                 }
1331                 break;
1332             case 'f':
1333                 mpd_qrescale(&tmp, dec, -spec->prec, ctx,
1334                              &workstatus);
1335                 dec = &tmp;
1336                 break;
1337             }
1338         }
1339 
1340         if (type == 'f') {
1341             if (mpd_iszero(dec) && dec->exp > 0) {
1342                 mpd_qrescale(&tmp, dec, 0, ctx, &workstatus);
1343                 dec = &tmp;
1344             }
1345         }
1346 
1347         if (workstatus&MPD_Errors) {
1348             *status |= (workstatus&MPD_Errors);
1349             goto error;
1350         }
1351     }
1352 
1353     /*
1354      * At this point, for all scaled or non-scaled decimals:
1355      *   1) 1 <= digits <= MAX_PREC+1
1356      *   2) adjexp(scaled) = adjexp(orig) [+1]
1357      *   3)   case 'g': MIN_ETINY <= exp <= MAX_EMAX+1
1358      *        case 'e': MIN_ETINY-MAX_PREC <= exp <= MAX_EMAX+1
1359      *        case 'f': MIN_ETINY <= exp <= MAX_EMAX+1
1360      *   4) max memory alloc in _mpd_to_string:
1361      *        case 'g': MAX_PREC+36
1362      *        case 'e': MAX_PREC+36
1363      *        case 'f': 2*MPD_MAX_PREC+30
1364      */
1365     result.nbytes = _mpd_to_string(&result.data, dec, flags, dplace);
1366     result.nchars = result.nbytes;
1367     if (result.nbytes < 0) {
1368         *status |= MPD_Malloc_error;
1369         goto error;
1370     }
1371 
1372     if (*spec->dot != '\0' && !mpd_isspecial(dec)) {
1373         if (result.nchars > MPD_MAX_PREC+36) {
1374             /* Since a group length of one is not explicitly
1375              * disallowed, ensure that it is always possible to
1376              * insert a four byte separator after each digit. */
1377             *status |= MPD_Invalid_operation;
1378             mpd_free(result.data);
1379             goto error;
1380         }
1381         if (!_mpd_apply_lconv(&result, spec, status)) {
1382             goto error;
1383         }
1384     }
1385 
1386     if (spec->min_width) {
1387         if (!_mpd_add_pad(&result, spec, status)) {
1388             goto error;
1389         }
1390     }
1391 
1392     mpd_del(&tmp);
1393     return result.data;
1394 
1395 error:
1396     mpd_del(&tmp);
1397     return NULL;
1398 }
1399 
1400 char *
mpd_qformat(const mpd_t * dec,const char * fmt,const mpd_context_t * ctx,uint32_t * status)1401 mpd_qformat(const mpd_t *dec, const char *fmt, const mpd_context_t *ctx,
1402             uint32_t *status)
1403 {
1404     mpd_spec_t spec;
1405 
1406     if (!mpd_parse_fmt_str(&spec, fmt, 1)) {
1407         *status |= MPD_Invalid_operation;
1408         return NULL;
1409     }
1410 
1411     return mpd_qformat_spec(dec, &spec, ctx, status);
1412 }
1413 
1414 /*
1415  * The specification has a *condition* called Invalid_operation and an
1416  * IEEE *signal* called Invalid_operation. The former corresponds to
1417  * MPD_Invalid_operation, the latter to MPD_IEEE_Invalid_operation.
1418  * MPD_IEEE_Invalid_operation comprises the following conditions:
1419  *
1420  * [MPD_Conversion_syntax, MPD_Division_impossible, MPD_Division_undefined,
1421  *  MPD_Fpu_error, MPD_Invalid_context, MPD_Invalid_operation,
1422  *  MPD_Malloc_error]
1423  *
1424  * In the following functions, 'flag' denotes the condition, 'signal'
1425  * denotes the IEEE signal.
1426  */
1427 
1428 static const char *mpd_flag_string[MPD_NUM_FLAGS] = {
1429     "Clamped",
1430     "Conversion_syntax",
1431     "Division_by_zero",
1432     "Division_impossible",
1433     "Division_undefined",
1434     "Fpu_error",
1435     "Inexact",
1436     "Invalid_context",
1437     "Invalid_operation",
1438     "Malloc_error",
1439     "Not_implemented",
1440     "Overflow",
1441     "Rounded",
1442     "Subnormal",
1443     "Underflow",
1444 };
1445 
1446 static const char *mpd_signal_string[MPD_NUM_FLAGS] = {
1447     "Clamped",
1448     "IEEE_Invalid_operation",
1449     "Division_by_zero",
1450     "IEEE_Invalid_operation",
1451     "IEEE_Invalid_operation",
1452     "IEEE_Invalid_operation",
1453     "Inexact",
1454     "IEEE_Invalid_operation",
1455     "IEEE_Invalid_operation",
1456     "IEEE_Invalid_operation",
1457     "Not_implemented",
1458     "Overflow",
1459     "Rounded",
1460     "Subnormal",
1461     "Underflow",
1462 };
1463 
1464 /* print conditions to buffer, separated by spaces */
1465 int
mpd_snprint_flags(char * dest,int nmemb,uint32_t flags)1466 mpd_snprint_flags(char *dest, int nmemb, uint32_t flags)
1467 {
1468     char *cp;
1469     int n, j;
1470 
1471     assert(nmemb >= MPD_MAX_FLAG_STRING);
1472 
1473     *dest = '\0'; cp = dest;
1474     for (j = 0; j < MPD_NUM_FLAGS; j++) {
1475         if (flags & (1U<<j)) {
1476             n = snprintf(cp, nmemb, "%s ", mpd_flag_string[j]);
1477             if (n < 0 || n >= nmemb) return -1;
1478             cp += n; nmemb -= n;
1479         }
1480     }
1481 
1482     if (cp != dest) {
1483         *(--cp) = '\0';
1484     }
1485 
1486     return (int)(cp-dest);
1487 }
1488 
1489 /* print conditions to buffer, in list form */
1490 int
mpd_lsnprint_flags(char * dest,int nmemb,uint32_t flags,const char * flag_string[])1491 mpd_lsnprint_flags(char *dest, int nmemb, uint32_t flags, const char *flag_string[])
1492 {
1493     char *cp;
1494     int n, j;
1495 
1496     assert(nmemb >= MPD_MAX_FLAG_LIST);
1497     if (flag_string == NULL) {
1498         flag_string = mpd_flag_string;
1499     }
1500 
1501     *dest = '[';
1502     *(dest+1) = '\0';
1503     cp = dest+1;
1504     --nmemb;
1505 
1506     for (j = 0; j < MPD_NUM_FLAGS; j++) {
1507         if (flags & (1U<<j)) {
1508             n = snprintf(cp, nmemb, "%s, ", flag_string[j]);
1509             if (n < 0 || n >= nmemb) return -1;
1510             cp += n; nmemb -= n;
1511         }
1512     }
1513 
1514     /* erase the last ", " */
1515     if (cp != dest+1) {
1516         cp -= 2;
1517     }
1518 
1519     *cp++ = ']';
1520     *cp = '\0';
1521 
1522     return (int)(cp-dest); /* strlen, without NUL terminator */
1523 }
1524 
1525 /* print signals to buffer, in list form */
1526 int
mpd_lsnprint_signals(char * dest,int nmemb,uint32_t flags,const char * signal_string[])1527 mpd_lsnprint_signals(char *dest, int nmemb, uint32_t flags, const char *signal_string[])
1528 {
1529     char *cp;
1530     int n, j;
1531     int ieee_invalid_done = 0;
1532 
1533     assert(nmemb >= MPD_MAX_SIGNAL_LIST);
1534     if (signal_string == NULL) {
1535         signal_string = mpd_signal_string;
1536     }
1537 
1538     *dest = '[';
1539     *(dest+1) = '\0';
1540     cp = dest+1;
1541     --nmemb;
1542 
1543     for (j = 0; j < MPD_NUM_FLAGS; j++) {
1544         uint32_t f = flags & (1U<<j);
1545         if (f) {
1546             if (f&MPD_IEEE_Invalid_operation) {
1547                 if (ieee_invalid_done) {
1548                     continue;
1549                 }
1550                 ieee_invalid_done = 1;
1551             }
1552             n = snprintf(cp, nmemb, "%s, ", signal_string[j]);
1553             if (n < 0 || n >= nmemb) return -1;
1554             cp += n; nmemb -= n;
1555         }
1556     }
1557 
1558     /* erase the last ", " */
1559     if (cp != dest+1) {
1560         cp -= 2;
1561     }
1562 
1563     *cp++ = ']';
1564     *cp = '\0';
1565 
1566     return (int)(cp-dest); /* strlen, without NUL terminator */
1567 }
1568 
1569 /* The following two functions are mainly intended for debugging. */
1570 void
mpd_fprint(FILE * file,const mpd_t * dec)1571 mpd_fprint(FILE *file, const mpd_t *dec)
1572 {
1573     char *decstring;
1574 
1575     decstring = mpd_to_sci(dec, 1);
1576     if (decstring != NULL) {
1577         fprintf(file, "%s\n", decstring);
1578         mpd_free(decstring);
1579     }
1580     else {
1581         fputs("mpd_fprint: output error\n", file); /* GCOV_NOT_REACHED */
1582     }
1583 }
1584 
1585 void
mpd_print(const mpd_t * dec)1586 mpd_print(const mpd_t *dec)
1587 {
1588     char *decstring;
1589 
1590     decstring = mpd_to_sci(dec, 1);
1591     if (decstring != NULL) {
1592         printf("%s\n", decstring);
1593         mpd_free(decstring);
1594     }
1595     else {
1596         fputs("mpd_fprint: output error\n", stderr); /* GCOV_NOT_REACHED */
1597     }
1598 }
1599