/* * Copyright (c) 2008-2020 Stefan Krah. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "mpdecimal.h" #include #include #include #include #include #include #include #include #include "io.h" #include "typearith.h" /* This file contains functions for decimal <-> string conversions, including PEP-3101 formatting for numeric types. */ #if defined(__GNUC__) && !defined(__INTEL_COMPILER) && __GNUC__ >= 7 #pragma GCC diagnostic ignored "-Wimplicit-fallthrough" #pragma GCC diagnostic ignored "-Wmisleading-indentation" #pragma GCC diagnostic ignored "-Warray-bounds" #endif /* * Work around the behavior of tolower() and strcasecmp() in certain * locales. For example, in tr_TR.utf8: * * tolower((unsigned char)'I') == 'I' * * u is the exact uppercase version of l; n is strlen(l) or strlen(l)+1 */ static inline int _mpd_strneq(const char *s, const char *l, const char *u, size_t n) { while (--n != SIZE_MAX) { if (*s != *l && *s != *u) { return 0; } s++; u++; l++; } return 1; } static mpd_ssize_t strtoexp(const char *s) { char *end; mpd_ssize_t retval; errno = 0; retval = mpd_strtossize(s, &end, 10); if (errno == 0 && !(*s != '\0' && *end == '\0')) errno = EINVAL; return retval; } /* * Scan 'len' words. The most significant word contains 'r' digits, * the remaining words are full words. Skip dpoint. The string 's' must * consist of digits and an optional single decimal point at 'dpoint'. */ static void string_to_coeff(mpd_uint_t *data, const char *s, const char *dpoint, int r, size_t len) { int j; if (r > 0) { data[--len] = 0; for (j = 0; j < r; j++, s++) { if (s == dpoint) s++; data[len] = 10 * data[len] + (*s - '0'); } } while (--len != SIZE_MAX) { data[len] = 0; for (j = 0; j < MPD_RDIGITS; j++, s++) { if (s == dpoint) s++; data[len] = 10 * data[len] + (*s - '0'); } } } /* * Partially verify a numeric string of the form: * * [cdigits][.][cdigits][eE][+-][edigits] * * If successful, return a pointer to the location of the first * relevant coefficient digit. This digit is either non-zero or * part of one of the following patterns: * * ["0\x00", "0.\x00", "0.E", "0.e", "0E", "0e"] * * The locations of a single optional dot or indicator are stored * in 'dpoint' and 'exp'. * * The end of the string is stored in 'end'. If an indicator [eE] * occurs without trailing [edigits], the condition is caught * later by strtoexp(). */ static const char * scan_dpoint_exp(const char *s, const char **dpoint, const char **exp, const char **end) { const char *coeff = NULL; *dpoint = NULL; *exp = NULL; for (; *s != '\0'; s++) { switch (*s) { case '.': if (*dpoint != NULL || *exp != NULL) return NULL; *dpoint = s; break; case 'E': case 'e': if (*exp != NULL) return NULL; *exp = s; if (*(s+1) == '+' || *(s+1) == '-') s++; break; default: if (!isdigit((unsigned char)*s)) return NULL; if (coeff == NULL && *exp == NULL) { if (*s == '0') { if (!isdigit((unsigned char)*(s+1))) if (!(*(s+1) == '.' && isdigit((unsigned char)*(s+2)))) coeff = s; } else { coeff = s; } } break; } } *end = s; return coeff; } /* scan the payload of a NaN */ static const char * scan_payload(const char *s, const char **end) { const char *coeff; while (*s == '0') s++; coeff = s; while (isdigit((unsigned char)*s)) s++; *end = s; return (*s == '\0') ? coeff : NULL; } /* convert a character string to a decimal */ void mpd_qset_string(mpd_t *dec, const char *s, const mpd_context_t *ctx, uint32_t *status) { mpd_ssize_t q, r, len; const char *coeff, *end; const char *dpoint = NULL, *exp = NULL; size_t digits; uint8_t sign = MPD_POS; mpd_set_flags(dec, 0); dec->len = 0; dec->exp = 0; /* sign */ if (*s == '+') { s++; } else if (*s == '-') { mpd_set_negative(dec); sign = MPD_NEG; s++; } if (_mpd_strneq(s, "nan", "NAN", 3)) { /* NaN */ s += 3; mpd_setspecial(dec, sign, MPD_NAN); if (*s == '\0') return; /* validate payload: digits only */ if ((coeff = scan_payload(s, &end)) == NULL) goto conversion_error; /* payload consists entirely of zeros */ if (*coeff == '\0') return; digits = end - coeff; /* prec >= 1, clamp is 0 or 1 */ if (digits > (size_t)(ctx->prec-ctx->clamp)) goto conversion_error; } /* sNaN */ else if (_mpd_strneq(s, "snan", "SNAN", 4)) { s += 4; mpd_setspecial(dec, sign, MPD_SNAN); if (*s == '\0') return; /* validate payload: digits only */ if ((coeff = scan_payload(s, &end)) == NULL) goto conversion_error; /* payload consists entirely of zeros */ if (*coeff == '\0') return; digits = end - coeff; if (digits > (size_t)(ctx->prec-ctx->clamp)) goto conversion_error; } else if (_mpd_strneq(s, "inf", "INF", 3)) { s += 3; if (*s == '\0' || _mpd_strneq(s, "inity", "INITY", 6)) { /* numeric-value: infinity */ mpd_setspecial(dec, sign, MPD_INF); return; } goto conversion_error; } else { /* scan for start of coefficient, decimal point, indicator, end */ if ((coeff = scan_dpoint_exp(s, &dpoint, &exp, &end)) == NULL) goto conversion_error; /* numeric-value: [exponent-part] */ if (exp) { /* exponent-part */ end = exp; exp++; dec->exp = strtoexp(exp); if (errno) { if (!(errno == ERANGE && (dec->exp == MPD_SSIZE_MAX || dec->exp == MPD_SSIZE_MIN))) goto conversion_error; } } digits = end - coeff; if (dpoint) { size_t fracdigits = end-dpoint-1; if (dpoint > coeff) digits--; if (fracdigits > MPD_MAX_PREC) { goto conversion_error; } if (dec->exp < MPD_SSIZE_MIN+(mpd_ssize_t)fracdigits) { dec->exp = MPD_SSIZE_MIN; } else { dec->exp -= (mpd_ssize_t)fracdigits; } } if (digits > MPD_MAX_PREC) { goto conversion_error; } if (dec->exp > MPD_EXP_INF) { dec->exp = MPD_EXP_INF; } if (dec->exp == MPD_SSIZE_MIN) { dec->exp = MPD_SSIZE_MIN+1; } } _mpd_idiv_word(&q, &r, (mpd_ssize_t)digits, MPD_RDIGITS); len = (r == 0) ? q : q+1; if (len == 0) { goto conversion_error; /* GCOV_NOT_REACHED */ } if (!mpd_qresize(dec, len, status)) { mpd_seterror(dec, MPD_Malloc_error, status); return; } dec->len = len; string_to_coeff(dec->data, coeff, dpoint, (int)r, len); mpd_setdigits(dec); mpd_qfinalize(dec, ctx, status); return; conversion_error: /* standard wants a positive NaN */ mpd_seterror(dec, MPD_Conversion_syntax, status); } /* convert a character string to a decimal, use a maxcontext for conversion */ void mpd_qset_string_exact(mpd_t *dec, const char *s, uint32_t *status) { mpd_context_t maxcontext; mpd_maxcontext(&maxcontext); mpd_qset_string(dec, s, &maxcontext, status); if (*status & (MPD_Inexact|MPD_Rounded|MPD_Clamped)) { /* we want exact results */ mpd_seterror(dec, MPD_Invalid_operation, status); } *status &= MPD_Errors; } /* Print word x with n decimal digits to string s. dot is either NULL or the location of a decimal point. */ #define EXTRACT_DIGIT(s, x, d, dot) \ if (s == dot) *s++ = '.'; *s++ = '0' + (char)(x / d); x %= d static inline char * word_to_string(char *s, mpd_uint_t x, int n, char *dot) { switch(n) { #ifdef CONFIG_64 case 20: EXTRACT_DIGIT(s, x, 10000000000000000000ULL, dot); /* GCOV_NOT_REACHED */ case 19: EXTRACT_DIGIT(s, x, 1000000000000000000ULL, dot); case 18: EXTRACT_DIGIT(s, x, 100000000000000000ULL, dot); case 17: EXTRACT_DIGIT(s, x, 10000000000000000ULL, dot); case 16: EXTRACT_DIGIT(s, x, 1000000000000000ULL, dot); case 15: EXTRACT_DIGIT(s, x, 100000000000000ULL, dot); case 14: EXTRACT_DIGIT(s, x, 10000000000000ULL, dot); case 13: EXTRACT_DIGIT(s, x, 1000000000000ULL, dot); case 12: EXTRACT_DIGIT(s, x, 100000000000ULL, dot); case 11: EXTRACT_DIGIT(s, x, 10000000000ULL, dot); #endif case 10: EXTRACT_DIGIT(s, x, 1000000000UL, dot); case 9: EXTRACT_DIGIT(s, x, 100000000UL, dot); case 8: EXTRACT_DIGIT(s, x, 10000000UL, dot); case 7: EXTRACT_DIGIT(s, x, 1000000UL, dot); case 6: EXTRACT_DIGIT(s, x, 100000UL, dot); case 5: EXTRACT_DIGIT(s, x, 10000UL, dot); case 4: EXTRACT_DIGIT(s, x, 1000UL, dot); case 3: EXTRACT_DIGIT(s, x, 100UL, dot); case 2: EXTRACT_DIGIT(s, x, 10UL, dot); default: if (s == dot) *s++ = '.'; *s++ = '0' + (char)x; } *s = '\0'; return s; } /* Print exponent x to string s. Undefined for MPD_SSIZE_MIN. */ static inline char * exp_to_string(char *s, mpd_ssize_t x) { char sign = '+'; if (x < 0) { sign = '-'; x = -x; } *s++ = sign; return word_to_string(s, x, mpd_word_digits(x), NULL); } /* Print the coefficient of dec to string s. len(dec) > 0. */ static inline char * coeff_to_string(char *s, const mpd_t *dec) { mpd_uint_t x; mpd_ssize_t i; /* most significant word */ x = mpd_msword(dec); s = word_to_string(s, x, mpd_word_digits(x), NULL); /* remaining full words */ for (i=dec->len-2; i >= 0; --i) { x = dec->data[i]; s = word_to_string(s, x, MPD_RDIGITS, NULL); } return s; } /* Print the coefficient of dec to string s. len(dec) > 0. dot is either NULL or a pointer to the location of a decimal point. */ static inline char * coeff_to_string_dot(char *s, char *dot, const mpd_t *dec) { mpd_uint_t x; mpd_ssize_t i; /* most significant word */ x = mpd_msword(dec); s = word_to_string(s, x, mpd_word_digits(x), dot); /* remaining full words */ for (i=dec->len-2; i >= 0; --i) { x = dec->data[i]; s = word_to_string(s, x, MPD_RDIGITS, dot); } return s; } /* Format type */ #define MPD_FMT_LOWER 0x00000000 #define MPD_FMT_UPPER 0x00000001 #define MPD_FMT_TOSCI 0x00000002 #define MPD_FMT_TOENG 0x00000004 #define MPD_FMT_EXP 0x00000008 #define MPD_FMT_FIXED 0x00000010 #define MPD_FMT_PERCENT 0x00000020 #define MPD_FMT_SIGN_SPACE 0x00000040 #define MPD_FMT_SIGN_PLUS 0x00000080 /* Default place of the decimal point for MPD_FMT_TOSCI, MPD_FMT_EXP */ #define MPD_DEFAULT_DOTPLACE 1 /* * Set *result to the string representation of a decimal. Return the length * of *result, not including the terminating '\0' character. * * Formatting is done according to 'flags'. A return value of -1 with *result * set to NULL indicates MPD_Malloc_error. * * 'dplace' is the default place of the decimal point. It is always set to * MPD_DEFAULT_DOTPLACE except for zeros in combination with MPD_FMT_EXP. */ static mpd_ssize_t _mpd_to_string(char **result, const mpd_t *dec, int flags, mpd_ssize_t dplace) { char *decstring = NULL, *cp = NULL; mpd_ssize_t ldigits; mpd_ssize_t mem = 0, k; if (mpd_isspecial(dec)) { mem = sizeof "-Infinity%"; if (mpd_isnan(dec) && dec->len > 0) { /* diagnostic code */ mem += dec->digits; } cp = decstring = mpd_alloc(mem, sizeof *decstring); if (cp == NULL) { *result = NULL; return -1; } if (mpd_isnegative(dec)) { *cp++ = '-'; } else if (flags&MPD_FMT_SIGN_SPACE) { *cp++ = ' '; } else if (flags&MPD_FMT_SIGN_PLUS) { *cp++ = '+'; } if (mpd_isnan(dec)) { if (mpd_isqnan(dec)) { strcpy(cp, "NaN"); cp += 3; } else { strcpy(cp, "sNaN"); cp += 4; } if (dec->len > 0) { /* diagnostic code */ cp = coeff_to_string(cp, dec); } } else if (mpd_isinfinite(dec)) { strcpy(cp, "Infinity"); cp += 8; } else { /* debug */ abort(); /* GCOV_NOT_REACHED */ } } else { assert(dec->len > 0); /* * For easier manipulation of the decimal point's location * and the exponent that is finally printed, the number is * rescaled to a virtual representation with exp = 0. Here * ldigits denotes the number of decimal digits to the left * of the decimal point and remains constant once initialized. * * dplace is the location of the decimal point relative to * the start of the coefficient. Note that 3) always holds * when dplace is shifted. * * 1) ldigits := dec->digits - dec->exp * 2) dplace := ldigits (initially) * 3) exp := ldigits - dplace (initially exp = 0) * * 0.00000_.____._____000000. * ^ ^ ^ ^ * | | | | * | | | `- dplace >= digits * | | `- dplace in the middle of the coefficient * | ` dplace = 1 (after the first coefficient digit) * `- dplace <= 0 */ ldigits = dec->digits + dec->exp; if (flags&MPD_FMT_EXP) { ; } else if (flags&MPD_FMT_FIXED || (dec->exp <= 0 && ldigits > -6)) { /* MPD_FMT_FIXED: always use fixed point notation. * MPD_FMT_TOSCI, MPD_FMT_TOENG: for a certain range, * override exponent notation. */ dplace = ldigits; } else if (flags&MPD_FMT_TOENG) { if (mpd_iszero(dec)) { /* If the exponent is divisible by three, * dplace = 1. Otherwise, move dplace one * or two places to the left. */ dplace = -1 + mod_mpd_ssize_t(dec->exp+2, 3); } else { /* ldigits-1 is the adjusted exponent, which * should be divisible by three. If not, move * dplace one or two places to the right. */ dplace += mod_mpd_ssize_t(ldigits-1, 3); } } /* * Basic space requirements: * * [-][.][coeffdigits][E][-][expdigits+1][%]['\0'] * * If the decimal point lies outside of the coefficient digits, * space is adjusted accordingly. */ if (dplace <= 0) { mem = -dplace + dec->digits + 2; } else if (dplace >= dec->digits) { mem = dplace; } else { mem = dec->digits; } mem += (MPD_EXPDIGITS+1+6); cp = decstring = mpd_alloc(mem, sizeof *decstring); if (cp == NULL) { *result = NULL; return -1; } if (mpd_isnegative(dec)) { *cp++ = '-'; } else if (flags&MPD_FMT_SIGN_SPACE) { *cp++ = ' '; } else if (flags&MPD_FMT_SIGN_PLUS) { *cp++ = '+'; } if (dplace <= 0) { /* space: -dplace+dec->digits+2 */ *cp++ = '0'; *cp++ = '.'; for (k = 0; k < -dplace; k++) { *cp++ = '0'; } cp = coeff_to_string(cp, dec); } else if (dplace >= dec->digits) { /* space: dplace */ cp = coeff_to_string(cp, dec); for (k = 0; k < dplace-dec->digits; k++) { *cp++ = '0'; } } else { /* space: dec->digits+1 */ cp = coeff_to_string_dot(cp, cp+dplace, dec); } /* * Conditions for printing an exponent: * * MPD_FMT_TOSCI, MPD_FMT_TOENG: only if ldigits != dplace * MPD_FMT_FIXED: never (ldigits == dplace) * MPD_FMT_EXP: always */ if (ldigits != dplace || flags&MPD_FMT_EXP) { /* space: expdigits+2 */ *cp++ = (flags&MPD_FMT_UPPER) ? 'E' : 'e'; cp = exp_to_string(cp, ldigits-dplace); } } if (flags&MPD_FMT_PERCENT) { *cp++ = '%'; } assert(cp < decstring+mem); assert(cp-decstring < MPD_SSIZE_MAX); *cp = '\0'; *result = decstring; return (mpd_ssize_t)(cp-decstring); } char * mpd_to_sci(const mpd_t *dec, int fmt) { char *res; int flags = MPD_FMT_TOSCI; flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER; (void)_mpd_to_string(&res, dec, flags, MPD_DEFAULT_DOTPLACE); return res; } char * mpd_to_eng(const mpd_t *dec, int fmt) { char *res; int flags = MPD_FMT_TOENG; flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER; (void)_mpd_to_string(&res, dec, flags, MPD_DEFAULT_DOTPLACE); return res; } mpd_ssize_t mpd_to_sci_size(char **res, const mpd_t *dec, int fmt) { int flags = MPD_FMT_TOSCI; flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER; return _mpd_to_string(res, dec, flags, MPD_DEFAULT_DOTPLACE); } mpd_ssize_t mpd_to_eng_size(char **res, const mpd_t *dec, int fmt) { int flags = MPD_FMT_TOENG; flags |= fmt ? MPD_FMT_UPPER : MPD_FMT_LOWER; return _mpd_to_string(res, dec, flags, MPD_DEFAULT_DOTPLACE); } /* Copy a single UTF-8 char to dest. See: The Unicode Standard, version 5.2, chapter 3.9: Well-formed UTF-8 byte sequences. */ static int _mpd_copy_utf8(char dest[5], const char *s) { const unsigned char *cp = (const unsigned char *)s; unsigned char lb, ub; int count, i; if (*cp == 0) { /* empty string */ dest[0] = '\0'; return 0; } else if (*cp <= 0x7f) { /* ascii */ dest[0] = *cp; dest[1] = '\0'; return 1; } else if (0xc2 <= *cp && *cp <= 0xdf) { lb = 0x80; ub = 0xbf; count = 2; } else if (*cp == 0xe0) { lb = 0xa0; ub = 0xbf; count = 3; } else if (*cp <= 0xec) { lb = 0x80; ub = 0xbf; count = 3; } else if (*cp == 0xed) { lb = 0x80; ub = 0x9f; count = 3; } else if (*cp <= 0xef) { lb = 0x80; ub = 0xbf; count = 3; } else if (*cp == 0xf0) { lb = 0x90; ub = 0xbf; count = 4; } else if (*cp <= 0xf3) { lb = 0x80; ub = 0xbf; count = 4; } else if (*cp == 0xf4) { lb = 0x80; ub = 0x8f; count = 4; } else { /* invalid */ goto error; } dest[0] = *cp++; if (*cp < lb || ub < *cp) { goto error; } dest[1] = *cp++; for (i = 2; i < count; i++) { if (*cp < 0x80 || 0xbf < *cp) { goto error; } dest[i] = *cp++; } dest[i] = '\0'; return count; error: dest[0] = '\0'; return -1; } int mpd_validate_lconv(mpd_spec_t *spec) { size_t n; #if CHAR_MAX == SCHAR_MAX const char *cp = spec->grouping; while (*cp != '\0') { if (*cp++ < 0) { return -1; } } #endif n = strlen(spec->dot); if (n == 0 || n > 4) { return -1; } if (strlen(spec->sep) > 4) { return -1; } return 0; } int mpd_parse_fmt_str(mpd_spec_t *spec, const char *fmt, int caps) { char *cp = (char *)fmt; int have_align = 0, n; /* defaults */ spec->min_width = 0; spec->prec = -1; spec->type = caps ? 'G' : 'g'; spec->align = '>'; spec->sign = '-'; spec->dot = ""; spec->sep = ""; spec->grouping = ""; /* presume that the first character is a UTF-8 fill character */ if ((n = _mpd_copy_utf8(spec->fill, cp)) < 0) { return 0; } /* alignment directive, prefixed by a fill character */ if (*cp && (*(cp+n) == '<' || *(cp+n) == '>' || *(cp+n) == '=' || *(cp+n) == '^')) { cp += n; spec->align = *cp++; have_align = 1; } /* alignment directive */ else { /* default fill character */ spec->fill[0] = ' '; spec->fill[1] = '\0'; if (*cp == '<' || *cp == '>' || *cp == '=' || *cp == '^') { spec->align = *cp++; have_align = 1; } } /* sign formatting */ if (*cp == '+' || *cp == '-' || *cp == ' ') { spec->sign = *cp++; } /* zero padding */ if (*cp == '0') { /* zero padding implies alignment, which should not be * specified twice. */ if (have_align) { return 0; } spec->align = 'z'; spec->fill[0] = *cp++; spec->fill[1] = '\0'; } /* minimum width */ if (isdigit((unsigned char)*cp)) { if (*cp == '0') { return 0; } errno = 0; spec->min_width = mpd_strtossize(cp, &cp, 10); if (errno == ERANGE || errno == EINVAL) { return 0; } } /* thousands separator */ if (*cp == ',') { spec->dot = "."; spec->sep = ","; spec->grouping = "\003\003"; cp++; } /* fraction digits or significant digits */ if (*cp == '.') { cp++; if (!isdigit((unsigned char)*cp)) { return 0; } errno = 0; spec->prec = mpd_strtossize(cp, &cp, 10); if (errno == ERANGE || errno == EINVAL) { return 0; } } /* type */ if (*cp == 'E' || *cp == 'e' || *cp == 'F' || *cp == 'f' || *cp == 'G' || *cp == 'g' || *cp == '%') { spec->type = *cp++; } else if (*cp == 'N' || *cp == 'n') { /* locale specific conversion */ struct lconv *lc; /* separator has already been specified */ if (*spec->sep) { return 0; } spec->type = *cp++; spec->type = (spec->type == 'N') ? 'G' : 'g'; lc = localeconv(); spec->dot = lc->decimal_point; spec->sep = lc->thousands_sep; spec->grouping = lc->grouping; if (mpd_validate_lconv(spec) < 0) { return 0; /* GCOV_NOT_REACHED */ } } /* check correctness */ if (*cp != '\0') { return 0; } return 1; } /* * The following functions assume that spec->min_width <= MPD_MAX_PREC, which * is made sure in mpd_qformat_spec. Then, even with a spec that inserts a * four-byte separator after each digit, nbytes in the following struct * cannot overflow. */ /* Multibyte string */ typedef struct { mpd_ssize_t nbytes; /* length in bytes */ mpd_ssize_t nchars; /* length in chars */ mpd_ssize_t cur; /* current write index */ char *data; } mpd_mbstr_t; static inline void _mpd_bcopy(char *dest, const char *src, mpd_ssize_t n) { while (--n >= 0) { dest[n] = src[n]; } } static inline void _mbstr_copy_char(mpd_mbstr_t *dest, const char *src, mpd_ssize_t n) { dest->nbytes += n; dest->nchars += (n > 0 ? 1 : 0); dest->cur -= n; if (dest->data != NULL) { _mpd_bcopy(dest->data+dest->cur, src, n); } } static inline void _mbstr_copy_ascii(mpd_mbstr_t *dest, const char *src, mpd_ssize_t n) { dest->nbytes += n; dest->nchars += n; dest->cur -= n; if (dest->data != NULL) { _mpd_bcopy(dest->data+dest->cur, src, n); } } static inline void _mbstr_copy_pad(mpd_mbstr_t *dest, mpd_ssize_t n) { dest->nbytes += n; dest->nchars += n; dest->cur -= n; if (dest->data != NULL) { char *cp = dest->data + dest->cur; while (--n >= 0) { cp[n] = '0'; } } } /* * Copy a numeric string to dest->data, adding separators in the integer * part according to spec->grouping. If leading zero padding is enabled * and the result is smaller than spec->min_width, continue adding zeros * and separators until the minimum width is reached. * * The final length of dest->data is stored in dest->nbytes. The number * of UTF-8 characters is stored in dest->nchars. * * First run (dest->data == NULL): determine the length of the result * string and store it in dest->nbytes. * * Second run (write to dest->data): data is written in chunks and in * reverse order, starting with the rest of the numeric string. */ static void _mpd_add_sep_dot(mpd_mbstr_t *dest, const char *sign, /* location of optional sign */ const char *src, mpd_ssize_t n_src, /* integer part and length */ const char *dot, /* location of optional decimal point */ const char *rest, mpd_ssize_t n_rest, /* remaining part and length */ const mpd_spec_t *spec) { mpd_ssize_t n_sep, n_sign, consume; const char *g; int pad = 0; n_sign = sign ? 1 : 0; n_sep = (mpd_ssize_t)strlen(spec->sep); /* Initial write index: set to location of '\0' in the output string. * Irrelevant for the first run. */ dest->cur = dest->nbytes; dest->nbytes = dest->nchars = 0; _mbstr_copy_ascii(dest, rest, n_rest); if (dot) { _mbstr_copy_char(dest, dot, (mpd_ssize_t)strlen(dot)); } g = spec->grouping; consume = *g; while (1) { /* If the group length is 0 or CHAR_MAX or greater than the * number of source bytes, consume all remaining bytes. */ if (*g == 0 || *g == CHAR_MAX || consume > n_src) { consume = n_src; } n_src -= consume; if (pad) { _mbstr_copy_pad(dest, consume); } else { _mbstr_copy_ascii(dest, src+n_src, consume); } if (n_src == 0) { /* Either the real source of intpart digits or the virtual * source of padding zeros is exhausted. */ if (spec->align == 'z' && dest->nchars + n_sign < spec->min_width) { /* Zero padding is set and length < min_width: * Generate n_src additional characters. */ n_src = spec->min_width - (dest->nchars + n_sign); /* Next iteration: * case *g == 0 || *g == CHAR_MAX: * consume all padding characters * case consume < g*: * fill remainder of current group * case consume == g* * copying is a no-op */ consume = *g - consume; /* Switch on virtual source of zeros. */ pad = 1; continue; } break; } if (n_sep > 0) { /* If padding is switched on, separators are counted * as padding characters. This rule does not apply if * the separator would be the first character of the * result string. */ if (pad && n_src > 1) n_src -= 1; _mbstr_copy_char(dest, spec->sep, n_sep); } /* If non-NUL, use the next value for grouping. */ if (*g && *(g+1)) g++; consume = *g; } if (sign) { _mbstr_copy_ascii(dest, sign, 1); } if (dest->data) { dest->data[dest->nbytes] = '\0'; } } /* * Convert a numeric-string to its locale-specific appearance. * The string must have one of these forms: * * 1) [sign] digits [exponent-part] * 2) [sign] digits '.' [digits] [exponent-part] * * Not allowed, since _mpd_to_string() never returns this form: * * 3) [sign] '.' digits [exponent-part] * * Input: result->data := original numeric string (ASCII) * result->bytes := strlen(result->data) * result->nchars := strlen(result->data) * * Output: result->data := modified or original string * result->bytes := strlen(result->data) * result->nchars := number of characters (possibly UTF-8) */ static int _mpd_apply_lconv(mpd_mbstr_t *result, const mpd_spec_t *spec, uint32_t *status) { const char *sign = NULL, *intpart = NULL, *dot = NULL; const char *rest, *dp; char *decstring; mpd_ssize_t n_int, n_rest; /* original numeric string */ dp = result->data; /* sign */ if (*dp == '+' || *dp == '-' || *dp == ' ') { sign = dp++; } /* integer part */ assert(isdigit((unsigned char)*dp)); intpart = dp++; while (isdigit((unsigned char)*dp)) { dp++; } n_int = (mpd_ssize_t)(dp-intpart); /* decimal point */ if (*dp == '.') { dp++; dot = spec->dot; } /* rest */ rest = dp; n_rest = result->nbytes - (mpd_ssize_t)(dp-result->data); if (dot == NULL && (*spec->sep == '\0' || *spec->grouping == '\0')) { /* _mpd_add_sep_dot() would not change anything */ return 1; } /* Determine the size of the new decimal string after inserting the * decimal point, optional separators and optional padding. */ decstring = result->data; result->data = NULL; _mpd_add_sep_dot(result, sign, intpart, n_int, dot, rest, n_rest, spec); result->data = mpd_alloc(result->nbytes+1, 1); if (result->data == NULL) { *status |= MPD_Malloc_error; mpd_free(decstring); return 0; } /* Perform actual writes. */ _mpd_add_sep_dot(result, sign, intpart, n_int, dot, rest, n_rest, spec); mpd_free(decstring); return 1; } /* Add padding to the formatted string if necessary. */ static int _mpd_add_pad(mpd_mbstr_t *result, const mpd_spec_t *spec, uint32_t *status) { if (result->nchars < spec->min_width) { mpd_ssize_t add_chars, add_bytes; size_t lpad = 0, rpad = 0; size_t n_fill, len, i, j; char align = spec->align; uint8_t err = 0; char *cp; n_fill = strlen(spec->fill); add_chars = (spec->min_width - result->nchars); /* max value: MPD_MAX_PREC * 4 */ add_bytes = add_chars * (mpd_ssize_t)n_fill; cp = result->data = mpd_realloc(result->data, result->nbytes+add_bytes+1, sizeof *result->data, &err); if (err) { *status |= MPD_Malloc_error; mpd_free(result->data); return 0; } if (align == 'z') { align = '='; } if (align == '<') { rpad = add_chars; } else if (align == '>' || align == '=') { lpad = add_chars; } else { /* align == '^' */ lpad = add_chars/2; rpad = add_chars-lpad; } len = result->nbytes; if (align == '=' && (*cp == '-' || *cp == '+' || *cp == ' ')) { /* leave sign in the leading position */ cp++; len--; } memmove(cp+n_fill*lpad, cp, len); for (i = 0; i < lpad; i++) { for (j = 0; j < n_fill; j++) { cp[i*n_fill+j] = spec->fill[j]; } } cp += (n_fill*lpad + len); for (i = 0; i < rpad; i++) { for (j = 0; j < n_fill; j++) { cp[i*n_fill+j] = spec->fill[j]; } } result->nbytes += add_bytes; result->nchars += add_chars; result->data[result->nbytes] = '\0'; } return 1; } /* Round a number to prec digits. The adjusted exponent stays the same or increases by one if rounding up crosses a power of ten boundary. If result->digits would exceed MPD_MAX_PREC+1, MPD_Invalid_operation is set and the result is NaN. */ static inline void _mpd_round(mpd_t *result, const mpd_t *a, mpd_ssize_t prec, const mpd_context_t *ctx, uint32_t *status) { mpd_ssize_t exp = a->exp + a->digits - prec; if (prec <= 0) { mpd_seterror(result, MPD_Invalid_operation, status); /* GCOV_NOT_REACHED */ return; /* GCOV_NOT_REACHED */ } if (mpd_isspecial(a) || mpd_iszero(a)) { mpd_qcopy(result, a, status); /* GCOV_NOT_REACHED */ return; /* GCOV_NOT_REACHED */ } mpd_qrescale_fmt(result, a, exp, ctx, status); if (result->digits > prec) { mpd_qrescale_fmt(result, result, exp+1, ctx, status); } } /* * Return the string representation of an mpd_t, formatted according to 'spec'. * The format specification is assumed to be valid. Memory errors are indicated * as usual. This function is quiet. */ char * mpd_qformat_spec(const mpd_t *dec, const mpd_spec_t *spec, const mpd_context_t *ctx, uint32_t *status) { mpd_uint_t dt[MPD_MINALLOC_MAX]; mpd_t tmp = {MPD_STATIC|MPD_STATIC_DATA,0,0,0,MPD_MINALLOC_MAX,dt}; mpd_ssize_t dplace = MPD_DEFAULT_DOTPLACE; mpd_mbstr_t result; mpd_spec_t stackspec; char type = spec->type; int flags = 0; if (spec->min_width > MPD_MAX_PREC) { *status |= MPD_Invalid_operation; return NULL; } if (isupper((unsigned char)type)) { type = (char)tolower((unsigned char)type); flags |= MPD_FMT_UPPER; } if (spec->sign == ' ') { flags |= MPD_FMT_SIGN_SPACE; } else if (spec->sign == '+') { flags |= MPD_FMT_SIGN_PLUS; } if (mpd_isspecial(dec)) { if (spec->align == 'z') { stackspec = *spec; stackspec.fill[0] = ' '; stackspec.fill[1] = '\0'; stackspec.align = '>'; spec = &stackspec; } assert(strlen(spec->fill) == 1); /* annotation for scan-build */ if (type == '%') { flags |= MPD_FMT_PERCENT; } } else { uint32_t workstatus = 0; mpd_ssize_t prec; switch (type) { case 'g': flags |= MPD_FMT_TOSCI; break; case 'e': flags |= MPD_FMT_EXP; break; case '%': flags |= MPD_FMT_PERCENT; if (!mpd_qcopy(&tmp, dec, status)) { return NULL; } tmp.exp += 2; dec = &tmp; type = 'f'; /* fall through */ case 'f': flags |= MPD_FMT_FIXED; break; default: abort(); /* debug: GCOV_NOT_REACHED */ } if (spec->prec >= 0) { if (spec->prec > MPD_MAX_PREC) { *status |= MPD_Invalid_operation; goto error; } switch (type) { case 'g': prec = (spec->prec == 0) ? 1 : spec->prec; if (dec->digits > prec) { _mpd_round(&tmp, dec, prec, ctx, &workstatus); dec = &tmp; } break; case 'e': if (mpd_iszero(dec)) { dplace = 1-spec->prec; } else { _mpd_round(&tmp, dec, spec->prec+1, ctx, &workstatus); dec = &tmp; } break; case 'f': mpd_qrescale(&tmp, dec, -spec->prec, ctx, &workstatus); dec = &tmp; break; } } if (type == 'f') { if (mpd_iszero(dec) && dec->exp > 0) { mpd_qrescale(&tmp, dec, 0, ctx, &workstatus); dec = &tmp; } } if (workstatus&MPD_Errors) { *status |= (workstatus&MPD_Errors); goto error; } } /* * At this point, for all scaled or non-scaled decimals: * 1) 1 <= digits <= MAX_PREC+1 * 2) adjexp(scaled) = adjexp(orig) [+1] * 3) case 'g': MIN_ETINY <= exp <= MAX_EMAX+1 * case 'e': MIN_ETINY-MAX_PREC <= exp <= MAX_EMAX+1 * case 'f': MIN_ETINY <= exp <= MAX_EMAX+1 * 4) max memory alloc in _mpd_to_string: * case 'g': MAX_PREC+36 * case 'e': MAX_PREC+36 * case 'f': 2*MPD_MAX_PREC+30 */ result.nbytes = _mpd_to_string(&result.data, dec, flags, dplace); result.nchars = result.nbytes; if (result.nbytes < 0) { *status |= MPD_Malloc_error; goto error; } if (*spec->dot != '\0' && !mpd_isspecial(dec)) { if (result.nchars > MPD_MAX_PREC+36) { /* Since a group length of one is not explicitly * disallowed, ensure that it is always possible to * insert a four byte separator after each digit. */ *status |= MPD_Invalid_operation; mpd_free(result.data); goto error; } if (!_mpd_apply_lconv(&result, spec, status)) { goto error; } } if (spec->min_width) { if (!_mpd_add_pad(&result, spec, status)) { goto error; } } mpd_del(&tmp); return result.data; error: mpd_del(&tmp); return NULL; } char * mpd_qformat(const mpd_t *dec, const char *fmt, const mpd_context_t *ctx, uint32_t *status) { mpd_spec_t spec; if (!mpd_parse_fmt_str(&spec, fmt, 1)) { *status |= MPD_Invalid_operation; return NULL; } return mpd_qformat_spec(dec, &spec, ctx, status); } /* * The specification has a *condition* called Invalid_operation and an * IEEE *signal* called Invalid_operation. The former corresponds to * MPD_Invalid_operation, the latter to MPD_IEEE_Invalid_operation. * MPD_IEEE_Invalid_operation comprises the following conditions: * * [MPD_Conversion_syntax, MPD_Division_impossible, MPD_Division_undefined, * MPD_Fpu_error, MPD_Invalid_context, MPD_Invalid_operation, * MPD_Malloc_error] * * In the following functions, 'flag' denotes the condition, 'signal' * denotes the IEEE signal. */ static const char *mpd_flag_string[MPD_NUM_FLAGS] = { "Clamped", "Conversion_syntax", "Division_by_zero", "Division_impossible", "Division_undefined", "Fpu_error", "Inexact", "Invalid_context", "Invalid_operation", "Malloc_error", "Not_implemented", "Overflow", "Rounded", "Subnormal", "Underflow", }; static const char *mpd_signal_string[MPD_NUM_FLAGS] = { "Clamped", "IEEE_Invalid_operation", "Division_by_zero", "IEEE_Invalid_operation", "IEEE_Invalid_operation", "IEEE_Invalid_operation", "Inexact", "IEEE_Invalid_operation", "IEEE_Invalid_operation", "IEEE_Invalid_operation", "Not_implemented", "Overflow", "Rounded", "Subnormal", "Underflow", }; /* print conditions to buffer, separated by spaces */ int mpd_snprint_flags(char *dest, int nmemb, uint32_t flags) { char *cp; int n, j; assert(nmemb >= MPD_MAX_FLAG_STRING); *dest = '\0'; cp = dest; for (j = 0; j < MPD_NUM_FLAGS; j++) { if (flags & (1U<= nmemb) return -1; cp += n; nmemb -= n; } } if (cp != dest) { *(--cp) = '\0'; } return (int)(cp-dest); } /* print conditions to buffer, in list form */ int mpd_lsnprint_flags(char *dest, int nmemb, uint32_t flags, const char *flag_string[]) { char *cp; int n, j; assert(nmemb >= MPD_MAX_FLAG_LIST); if (flag_string == NULL) { flag_string = mpd_flag_string; } *dest = '['; *(dest+1) = '\0'; cp = dest+1; --nmemb; for (j = 0; j < MPD_NUM_FLAGS; j++) { if (flags & (1U<= nmemb) return -1; cp += n; nmemb -= n; } } /* erase the last ", " */ if (cp != dest+1) { cp -= 2; } *cp++ = ']'; *cp = '\0'; return (int)(cp-dest); /* strlen, without NUL terminator */ } /* print signals to buffer, in list form */ int mpd_lsnprint_signals(char *dest, int nmemb, uint32_t flags, const char *signal_string[]) { char *cp; int n, j; int ieee_invalid_done = 0; assert(nmemb >= MPD_MAX_SIGNAL_LIST); if (signal_string == NULL) { signal_string = mpd_signal_string; } *dest = '['; *(dest+1) = '\0'; cp = dest+1; --nmemb; for (j = 0; j < MPD_NUM_FLAGS; j++) { uint32_t f = flags & (1U<= nmemb) return -1; cp += n; nmemb -= n; } } /* erase the last ", " */ if (cp != dest+1) { cp -= 2; } *cp++ = ']'; *cp = '\0'; return (int)(cp-dest); /* strlen, without NUL terminator */ } /* The following two functions are mainly intended for debugging. */ void mpd_fprint(FILE *file, const mpd_t *dec) { char *decstring; decstring = mpd_to_sci(dec, 1); if (decstring != NULL) { fprintf(file, "%s\n", decstring); mpd_free(decstring); } else { fputs("mpd_fprint: output error\n", file); /* GCOV_NOT_REACHED */ } } void mpd_print(const mpd_t *dec) { char *decstring; decstring = mpd_to_sci(dec, 1); if (decstring != NULL) { printf("%s\n", decstring); mpd_free(decstring); } else { fputs("mpd_fprint: output error\n", stderr); /* GCOV_NOT_REACHED */ } }