302 lines
8.9 KiB
C
302 lines
8.9 KiB
C
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#include "mupdf/fitz.h"
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#include <assert.h>
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/*
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Convert IEEE single precision numbers into decimal ASCII strings, while
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satisfying the following two properties:
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1) Calling strtof or '(float) strtod' on the result must produce the
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original float, independent of the rounding mode used by strtof/strtod.
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2) Minimize the number of produced decimal digits. E.g. the float 0.7f
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should convert to "0.7", not "0.69999999".
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To solve this we use a dedicated single precision version of
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Florian Loitsch's Grisu2 algorithm. See
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http://florian.loitsch.com/publications/dtoa-pldi2010.pdf?attredirects=0
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The code below is derived from Loitsch's C code, which
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implements the same algorithm for IEEE double precision. See
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http://florian.loitsch.com/publications/bench.tar.gz?attredirects=0
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*/
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/*
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Copyright (c) 2009 Florian Loitsch
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Permission is hereby granted, free of charge, to any person
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obtaining a copy of this software and associated documentation
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files (the "Software"), to deal in the Software without
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restriction, including without limitation the rights to use,
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copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the
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Software is furnished to do so, subject to the following
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conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
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OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
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HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
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WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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OTHER DEALINGS IN THE SOFTWARE.
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*/
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static uint32_t
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float_to_uint32(float d)
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{
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union
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{
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float d;
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uint32_t n;
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} tmp;
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tmp.d = d;
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return tmp.n;
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}
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typedef struct
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{
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uint64_t f;
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int e;
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} diy_fp_t;
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#define DIY_SIGNIFICAND_SIZE 64
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#define DIY_LEADING_BIT ((uint64_t) 1 << (DIY_SIGNIFICAND_SIZE - 1))
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static diy_fp_t
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minus(diy_fp_t x, diy_fp_t y)
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{
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diy_fp_t result = {x.f - y.f, x.e};
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assert(x.e == y.e && x.f >= y.f);
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return result;
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}
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static diy_fp_t
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multiply(diy_fp_t x, diy_fp_t y)
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{
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uint64_t a, b, c, d, ac, bc, ad, bd, tmp;
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int half = DIY_SIGNIFICAND_SIZE / 2;
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diy_fp_t r; uint64_t mask = ((uint64_t) 1 << half) - 1;
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a = x.f >> half; b = x.f & mask;
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c = y.f >> half; d = y.f & mask;
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ac = a * c; bc = b * c; ad = a * d; bd = b * d;
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tmp = (bd >> half) + (ad & mask) + (bc & mask);
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tmp += ((uint64_t)1U) << (half - 1); /* Round. */
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r.f = ac + (ad >> half) + (bc >> half) + (tmp >> half);
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r.e = x.e + y.e + half * 2;
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return r;
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}
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#define SP_SIGNIFICAND_SIZE 23
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#define SP_EXPONENT_BIAS (127 + SP_SIGNIFICAND_SIZE)
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#define SP_MIN_EXPONENT (-SP_EXPONENT_BIAS)
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#define SP_EXPONENT_MASK 0x7f800000
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#define SP_SIGNIFICAND_MASK 0x7fffff
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#define SP_HIDDEN_BIT 0x800000 /* 2^23 */
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/* Does not normalize the result. */
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static diy_fp_t
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float2diy_fp(float d)
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{
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uint32_t d32 = float_to_uint32(d);
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int biased_e = (d32 & SP_EXPONENT_MASK) >> SP_SIGNIFICAND_SIZE;
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uint32_t significand = d32 & SP_SIGNIFICAND_MASK;
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diy_fp_t res;
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if (biased_e != 0)
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{
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res.f = significand + SP_HIDDEN_BIT;
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res.e = biased_e - SP_EXPONENT_BIAS;
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}
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else
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{
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res.f = significand;
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res.e = SP_MIN_EXPONENT + 1;
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}
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return res;
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}
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static diy_fp_t
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normalize_boundary(diy_fp_t in)
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{
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diy_fp_t res = in;
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/* The original number could have been a denormal. */
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while (! (res.f & (SP_HIDDEN_BIT << 1)))
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{
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res.f <<= 1;
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res.e--;
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}
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/* Do the final shifts in one go. */
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res.f <<= (DIY_SIGNIFICAND_SIZE - SP_SIGNIFICAND_SIZE - 2);
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res.e = res.e - (DIY_SIGNIFICAND_SIZE - SP_SIGNIFICAND_SIZE - 2);
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return res;
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}
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static void
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normalized_boundaries(float f, diy_fp_t* lower_ptr, diy_fp_t* upper_ptr)
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{
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diy_fp_t v = float2diy_fp(f);
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diy_fp_t upper, lower;
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int significand_is_zero = v.f == SP_HIDDEN_BIT;
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upper.f = (v.f << 1) + 1; upper.e = v.e - 1;
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upper = normalize_boundary(upper);
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if (significand_is_zero)
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{
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lower.f = (v.f << 2) - 1;
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lower.e = v.e - 2;
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}
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else
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{
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lower.f = (v.f << 1) - 1;
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lower.e = v.e - 1;
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}
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lower.f <<= lower.e - upper.e;
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lower.e = upper.e;
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/* Adjust to double boundaries, so that we can also read the numbers with '(float) strtod'. */
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upper.f -= 1 << 10;
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lower.f += 1 << 10;
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*upper_ptr = upper;
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*lower_ptr = lower;
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}
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static int
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k_comp(int n)
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{
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/* Avoid ceil and floating point multiplication for better
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* performance and portability. Instead use the approximation
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* log10(2) ~ 1233/(2^12). Tests show that this gives the correct
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* result for all values of n in the range -500..500. */
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int tmp = n + DIY_SIGNIFICAND_SIZE - 1;
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int k = (tmp * 1233) / (1 << 12);
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return tmp > 0 ? k + 1 : k;
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}
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/* Cached powers of ten from 10**-37..10**46. Produced using GNU MPFR's mpfr_pow_si. */
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/* Significands. */
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static uint64_t powers_ten[84] = {
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0x881cea14545c7575ull, 0xaa242499697392d3ull, 0xd4ad2dbfc3d07788ull,
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0x84ec3c97da624ab5ull, 0xa6274bbdd0fadd62ull, 0xcfb11ead453994baull,
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0x81ceb32c4b43fcf5ull, 0xa2425ff75e14fc32ull, 0xcad2f7f5359a3b3eull,
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0xfd87b5f28300ca0eull, 0x9e74d1b791e07e48ull, 0xc612062576589ddbull,
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0xf79687aed3eec551ull, 0x9abe14cd44753b53ull, 0xc16d9a0095928a27ull,
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0xf1c90080baf72cb1ull, 0x971da05074da7befull, 0xbce5086492111aebull,
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0xec1e4a7db69561a5ull, 0x9392ee8e921d5d07ull, 0xb877aa3236a4b449ull,
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0xe69594bec44de15bull, 0x901d7cf73ab0acd9ull, 0xb424dc35095cd80full,
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0xe12e13424bb40e13ull, 0x8cbccc096f5088ccull, 0xafebff0bcb24aaffull,
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0xdbe6fecebdedd5bfull, 0x89705f4136b4a597ull, 0xabcc77118461cefdull,
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0xd6bf94d5e57a42bcull, 0x8637bd05af6c69b6ull, 0xa7c5ac471b478423ull,
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0xd1b71758e219652cull, 0x83126e978d4fdf3bull, 0xa3d70a3d70a3d70aull,
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0xcccccccccccccccdull, 0x8000000000000000ull, 0xa000000000000000ull,
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0xc800000000000000ull, 0xfa00000000000000ull, 0x9c40000000000000ull,
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0xc350000000000000ull, 0xf424000000000000ull, 0x9896800000000000ull,
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0xbebc200000000000ull, 0xee6b280000000000ull, 0x9502f90000000000ull,
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0xba43b74000000000ull, 0xe8d4a51000000000ull, 0x9184e72a00000000ull,
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0xb5e620f480000000ull, 0xe35fa931a0000000ull, 0x8e1bc9bf04000000ull,
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0xb1a2bc2ec5000000ull, 0xde0b6b3a76400000ull, 0x8ac7230489e80000ull,
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0xad78ebc5ac620000ull, 0xd8d726b7177a8000ull, 0x878678326eac9000ull,
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0xa968163f0a57b400ull, 0xd3c21bcecceda100ull, 0x84595161401484a0ull,
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0xa56fa5b99019a5c8ull, 0xcecb8f27f4200f3aull, 0x813f3978f8940984ull,
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0xa18f07d736b90be5ull, 0xc9f2c9cd04674edfull, 0xfc6f7c4045812296ull,
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0x9dc5ada82b70b59eull, 0xc5371912364ce305ull, 0xf684df56c3e01bc7ull,
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0x9a130b963a6c115cull, 0xc097ce7bc90715b3ull, 0xf0bdc21abb48db20ull,
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0x96769950b50d88f4ull, 0xbc143fa4e250eb31ull, 0xeb194f8e1ae525fdull,
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0x92efd1b8d0cf37beull, 0xb7abc627050305aeull, 0xe596b7b0c643c719ull,
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0x8f7e32ce7bea5c70ull, 0xb35dbf821ae4f38cull, 0xe0352f62a19e306full,
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};
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/* Exponents. */
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static int powers_ten_e[84] = {
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-186, -183, -180, -176, -173, -170, -166, -163, -160, -157, -153,
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-150, -147, -143, -140, -137, -133, -130, -127, -123, -120, -117,
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-113, -110, -107, -103, -100, -97, -93, -90, -87, -83, -80,
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-77, -73, -70, -67, -63, -60, -57, -54, -50, -47, -44,
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-40, -37, -34, -30, -27, -24, -20, -17, -14, -10, -7,
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-4, 0, 3, 6, 10, 13, 16, 20, 23, 26, 30,
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33, 36, 39, 43, 46, 49, 53, 56, 59, 63, 66,
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69, 73, 76, 79, 83, 86, 89
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};
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static diy_fp_t
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cached_power(int i)
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{
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diy_fp_t result;
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assert (i >= -37 && i <= 46);
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result.f = powers_ten[i + 37];
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result.e = powers_ten_e[i + 37];
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return result;
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}
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/* Returns buffer length. */
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static int
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digit_gen_mix_grisu2(diy_fp_t D_upper, diy_fp_t delta, char* buffer, int* K)
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{
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int kappa;
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diy_fp_t one = {(uint64_t) 1 << -D_upper.e, D_upper.e};
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unsigned char p1 = D_upper.f >> -one.e;
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uint64_t p2 = D_upper.f & (one.f - 1);
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unsigned char div = 10;
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uint64_t mask = one.f - 1;
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int len = 0;
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for (kappa = 2; kappa > 0; --kappa)
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{
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unsigned char digit = p1 / div;
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if (digit || len)
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buffer[len++] = '0' + digit;
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p1 %= div; div /= 10;
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if ((((uint64_t) p1) << -one.e) + p2 <= delta.f)
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{
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*K += kappa - 1;
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return len;
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}
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}
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do
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{
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p2 *= 10;
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buffer[len++] = '0' + (p2 >> -one.e);
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p2 &= mask;
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kappa--;
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delta.f *= 10;
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}
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while (p2 > delta.f);
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*K += kappa;
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return len;
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}
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/*
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Compute decimal integer m, exp such that:
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f = m * 10^exp
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m is as short as possible without losing exactness
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Assumes special cases (0, NaN, +Inf, -Inf) have been handled.
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*/
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int
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fz_grisu(float v, char* buffer, int* K)
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{
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diy_fp_t w_lower, w_upper, D_upper, D_lower, c_mk, delta;
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int length, mk, alpha = -DIY_SIGNIFICAND_SIZE + 4;
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normalized_boundaries(v, &w_lower, &w_upper);
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mk = k_comp(alpha - w_upper.e - DIY_SIGNIFICAND_SIZE);
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c_mk = cached_power(mk);
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D_upper = multiply(w_upper, c_mk);
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D_lower = multiply(w_lower, c_mk);
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D_upper.f--;
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D_lower.f++;
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delta = minus(D_upper, D_lower);
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*K = -mk;
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length = digit_gen_mix_grisu2(D_upper, delta, buffer, K);
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buffer[length] = 0;
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return length;
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}
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