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344 lines
6.7 KiB
C
344 lines
6.7 KiB
C
3 years ago
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// SPDX-License-Identifier: LGPL-3.0-or-later
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/**
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* \file numlib_ftoa.c
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*
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* Float to ASCII conversion.
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*
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* \copyright The DoubleFourteen Code Forge (C) All Rights Reserved
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* \author Lorenzo Cogotti
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*
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* This code is based on Florian Loitsch paper
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* **Printing Floating-Point Numbers Quickly and Accurately with Integers**,
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* algorithm used is Grisu2.
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*
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* \see [Printing Floating-Point Numbers Quickly and Accurately with Integers](https://www.cs.tufts.edu/~nr/cs257/archive/florian-loitsch/printf.pdf)
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*/
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#include "numlib.h"
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#include "sys/endian.h"
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#include "numlib_fltp.h"
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#include <string.h>
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#define fracmask 0x000fffffffffffffuLL
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#define expmask 0x7ff0000000000000uLL
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#define hiddenbit 0x0010000000000000uLL
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#define signmask 0x8000000000000000uLL
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#define expbias (1023 + 52)
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static const Uint64 tens[] = {
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10000000000000000000uLL, 1000000000000000000uLL, 100000000000000000uLL,
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10000000000000000uLL, 1000000000000000uLL, 100000000000000uLL,
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10000000000000uLL, 1000000000000uLL, 100000000000uLL,
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10000000000uLL, 1000000000uLL, 100000000uLL,
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10000000uLL, 1000000uLL, 100000uLL,
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10000uLL, 1000uLL, 100uLL,
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10uLL, 1uLL
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};
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static Uint64 get_dbits(double d)
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{
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Doublebits dbl;
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dbl.f64 = d;
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return dbl.bits;
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}
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static Fp build_fp(double d)
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{
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Uint64 bits = get_dbits(d);
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Fp fp;
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fp.frac = bits & fracmask;
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fp.exp = (bits & expmask) >> 52;
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if(fp.exp) {
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fp.frac += hiddenbit;
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fp.exp -= expbias;
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} else {
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fp.exp = -expbias + 1;
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}
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return fp;
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}
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static void normalize(Fp *fp)
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{
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while ((fp->frac & hiddenbit) == 0) {
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fp->frac <<= 1;
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fp->exp--;
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}
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int shift = 64 - 52 - 1;
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fp->frac <<= shift;
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fp->exp -= shift;
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}
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static void get_normalized_boundaries(Fp *fp, Fp *lower, Fp *upper)
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{
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upper->frac = (fp->frac << 1) + 1;
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upper->exp = fp->exp - 1;
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while ((upper->frac & (hiddenbit << 1)) == 0) {
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upper->frac <<= 1;
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upper->exp--;
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}
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int u_shift = 64 - 52 - 2;
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upper->frac <<= u_shift;
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upper->exp = upper->exp - u_shift;
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int l_shift = fp->frac == hiddenbit ? 2 : 1;
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lower->frac = (fp->frac << l_shift) - 1;
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lower->exp = fp->exp - l_shift;
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lower->frac <<= lower->exp - upper->exp;
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lower->exp = upper->exp;
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}
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static Fp multiply(Fp *a, Fp *b)
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{
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const Uint64 lomask = 0x00000000FFFFFFFFuLL;
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Uint64 ah_bl = (a->frac >> 32) * (b->frac & lomask);
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Uint64 al_bh = (a->frac & lomask) * (b->frac >> 32);
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Uint64 al_bl = (a->frac & lomask) * (b->frac & lomask);
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Uint64 ah_bh = (a->frac >> 32) * (b->frac >> 32);
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Uint64 tmp = (ah_bl & lomask) + (al_bh & lomask) + (al_bl >> 32);
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// round up
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tmp += 1U << 31;
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Fp fp = {
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ah_bh + (ah_bl >> 32) + (al_bh >> 32) + (tmp >> 32),
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a->exp + b->exp + 64
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};
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return fp;
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}
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static void round_digit(char *digits,
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int ndigits,
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Uint64 delta,
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Uint64 rem,
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Uint64 kappa,
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Uint64 frac)
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{
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while ((rem < frac && delta - rem >= kappa) &&
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(rem + kappa < frac || frac - rem > rem + kappa - frac)) {
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digits[ndigits - 1]--;
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rem += kappa;
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}
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}
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static int generate_digits(Fp* fp, Fp *upper, Fp* lower, char *digits, int *K)
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{
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Uint64 wfrac = upper->frac - fp->frac;
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Uint64 delta = upper->frac - lower->frac;
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Fp one;
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one.frac = 1uLL << -upper->exp;
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one.exp = upper->exp;
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Uint64 part1 = upper->frac >> -one.exp;
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Uint64 part2 = upper->frac & (one.frac - 1);
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int idx = 0, kappa = 10;
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// 1000000000
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for (const Uint64 *divp = tens + 10; kappa > 0; divp++) {
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Uint64 div = *divp;
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unsigned digit = part1 / div;
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if (digit || idx)
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digits[idx++] = digit + '0';
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part1 -= digit * div;
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kappa--;
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Uint64 tmp = (part1 <<-one.exp) + part2;
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if (tmp <= delta) {
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*K += kappa;
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round_digit(digits, idx, delta, tmp, div << -one.exp, wfrac);
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return idx;
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}
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}
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// 10
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const Uint64 *unit = tens + 18;
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while (TRUE) {
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part2 *= 10;
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delta *= 10;
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kappa--;
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unsigned digit = part2 >> -one.exp;
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if (digit || idx)
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digits[idx++] = digit + '0';
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part2 &= one.frac - 1;
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if (part2 < delta) {
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*K += kappa;
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round_digit(digits, idx, delta, part2, one.frac, wfrac * *unit);
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break;
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}
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unit--;
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}
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return idx;
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}
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static int grisu2(double d, char *digits, int *K)
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{
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Fp w = build_fp(d);
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Fp lower, upper;
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get_normalized_boundaries(&w, &lower, &upper);
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normalize(&w);
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int k;
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Fp cp = find_cachedpow10(upper.exp, &k);
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w = multiply(&w, &cp);
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upper = multiply(&upper, &cp);
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lower = multiply(&lower, &cp);
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lower.frac++;
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upper.frac--;
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*K = -k;
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return generate_digits(&w, &upper, &lower, digits, K);
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}
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static int emit_digits(char *digits,
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int ndigits,
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char *dest,
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int K,
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Boolean neg)
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{
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int exp = ABS(K + ndigits - 1);
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// Write plain integer
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if (K >= 0 && (exp < (ndigits + 7))) {
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memcpy(dest, digits, ndigits);
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memset(dest + ndigits, '0', K);
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return ndigits + K;
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}
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// Write decimal w/o scientific notation
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if (K < 0 && (K > -7 || exp < 4)) {
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int offset = ndigits - ABS(K);
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if (offset <= 0) {
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// fp < 1.0 -> write leading zero
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offset = -offset;
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dest[0] = '0';
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dest[1] = '.';
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memset(dest + 2, '0', offset);
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memcpy(dest + offset + 2, digits, ndigits);
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return ndigits + 2 + offset;
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} else {
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// fp > 1.0
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memcpy(dest, digits, offset);
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dest[offset] = '.';
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memcpy(dest + offset + 1, digits + offset, ndigits - offset);
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return ndigits + 1;
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}
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}
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// write decimal w/ scientific notation
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ndigits = MIN(ndigits, 18 - neg);
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int idx = 0;
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dest[idx++] = digits[0];
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if (ndigits > 1) {
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dest[idx++] = '.';
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memcpy(dest + idx, digits + 1, ndigits - 1);
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idx += ndigits - 1;
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}
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dest[idx++] = 'e';
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char sign = K + ndigits - 1 < 0 ? '-' : '+';
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dest[idx++] = sign;
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int cent = 0;
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if (exp > 99) {
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cent = exp / 100;
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dest[idx++] = cent + '0';
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exp -= cent * 100;
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}
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if (exp > 9) {
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int dec = exp / 10;
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dest[idx++] = dec + '0';
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exp -= dec * 10;
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} else if (cent) {
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dest[idx++] = '0';
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}
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dest[idx++] = exp % 10 + '0';
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return idx;
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}
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static int filter_special(double fp, char *dest)
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{
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if (fp == 0.0) {
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dest[0] = '0';
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return 1;
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}
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Uint64 bits = get_dbits(fp);
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Boolean nan = (bits & expmask) == expmask;
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if (!nan)
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return 0;
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if (bits & fracmask) {
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dest[0] = 'n'; dest[1] = 'a'; dest[2] = 'n';
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} else {
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dest[0] = 'i'; dest[1] = 'n'; dest[2] = 'f';
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}
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return 3;
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}
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char *Ftoa(double d, char *dest)
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{
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char digits[18];
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int str_len = 0;
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Boolean neg = FALSE;
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if (get_dbits(d) & signmask) {
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dest[0] = '-';
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str_len++;
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neg = TRUE;
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}
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int spec = filter_special(d, dest + str_len);
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str_len += spec;
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if (spec == 0) {
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int K = 0;
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int ndigits = grisu2(d, digits, &K);
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str_len += emit_digits(digits, ndigits, dest + str_len, K, neg);
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}
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dest[str_len] = '\0';
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return dest + str_len;
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}
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