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#include <stdint.h>
#include <stdio.h>
#include <math.h>
#include <float.h>
#include <limits.h>
#include <errno.h>
#include "shgetc.h"
#include "floatscan.h"
#if LDBL_MANT_DIG == 53 && LDBL_MAX_EXP == 1024
#define LD_B1B_DIG 2
#define LD_B1B_MAX 9007199, 254740991
#define KMAX 128
#else /* LDBL_MANT_DIG == 64 && LDBL_MAX_EXP == 16384 */
#define LD_B1B_DIG 3
#define LD_B1B_MAX 18, 446744073, 709551615
#define KMAX 2048
#endif
#define MASK (KMAX-1)
static long long scanexp(FILE *f, int pok)
{
int c;
int x;
long long y;
int neg = 0;
c = shgetc(f);
if (c=='+' || c=='-') {
neg = (c=='-');
c = shgetc(f);
if (c-'0'>=10U && pok) shunget(f);
}
if (c-'0'>=10U) {
shunget(f);
return LLONG_MIN;
}
for (x=0; c-'0'<10U && x<INT_MAX/10; c = shgetc(f))
x = 10*x + c-'0';
for (y=x; c-'0'<10U && y<LLONG_MAX/100; c = shgetc(f))
y = 10*y + c-'0';
for (; c-'0'<10U; c = shgetc(f));
shunget(f);
return neg ? -y : y;
}
static long double decfloat(FILE *f, int c, int bits, int emin, int sign, int pok)
{
uint32_t x[KMAX];
static const uint32_t th[] = { LD_B1B_MAX };
int i, j, k, a, z;
long long lrp=-1, dc=0;
long long e10=0;
int lnz = 0;
int gotdig = 0;
int rp;
int e2;
long double y;
long double frac=0;
long double bias=0;
static const int p10s[] = { 10, 100, 1000, 10000,
100000, 1000000, 10000000, 100000000 };
j=0;
k=0;
/* Don't let leading zeros consume buffer space */
for (; c=='0'; c = shgetc(f)) gotdig=1;
x[0] = 0;
for (; c-'0'<10U || c=='.'; c = shgetc(f)) {
if (c == '.') {
if (lrp!=-1) break;
lrp = dc;
} else if (k < KMAX-2) {
dc++;
if (c!='0') lnz = dc;
if (j) x[k] = x[k]*10 + c-'0';
else x[k] = c-'0';
if (++j==9) {
k++;
j=0;
}
gotdig=1;
} else {
dc++;
if (c!='0') x[KMAX-3] |= 1;
}
}
if (lrp==-1) lrp=dc;
if (gotdig && (c|32)=='e') {
e10 = scanexp(f, pok);
if (e10 == LLONG_MIN) {
if (pok) {
shunget(f);
} else {
shlim(f, 0);
return 0;
}
e10 = 0;
}
lrp += e10;
} else if (c>=0) {
shunget(f);
}
if (!gotdig) {
errno = EINVAL;
shlim(f, 0);
return 0;
}
/* Handle zero specially to avoid nasty special cases later */
if (!x[0]) return sign * 0.0;
/* Optimize small integers (w/no exponent) and over/under-flow */
if (lrp==dc && dc<10 && (bits>30 || x[0]>>bits==0))
return sign * (long double)x[0];
if (lrp > -emin/2) {
errno = ERANGE;
return sign * LDBL_MAX * LDBL_MAX;
}
if (lrp < emin-2*LDBL_MANT_DIG) {
errno = ERANGE;
return sign * LDBL_MIN * LDBL_MIN;
}
/* Align incomplete final B1B digit */
if (k<KMAX && j) {
for (; j<9; j++) x[k]*=10;
k++;
j=0;
}
a = 0;
z = k;
e2 = 0;
rp = lrp;
/* Optimize small to mid-size integers (even in exp. notation) */
if (lnz<9 && lnz<=rp && rp < 18) {
if (rp == 9) return sign * (long double)x[0];
if (rp < 9) return sign * (long double)x[0] / p10s[8-rp];
int bitlim = bits-3*(int)(rp-9);
if (bitlim>30 || x[0]>>bitlim==0)
return sign * (long double)x[0] * p10s[rp-10];
}
/* Align radix point to B1B digit boundary */
if (rp % 9) {
int rpm9 = rp>=0 ? rp%9 : rp%9+9;
int p10 = p10s[8-rpm9];
uint32_t carry = 0;
for (k=a; k!=z; k++) {
uint32_t tmp = x[k] % p10;
x[k] = x[k]/p10 + carry;
carry = 1000000000/p10 * tmp;
if (k==a && !x[k]) {
a = (a+1 & MASK);
rp -= 9;
}
}
if (carry) x[z++] = carry;
rp += 9-rpm9;
}
/* Upscale until desired number of bits are left of radix point */
while (rp < 9*LD_B1B_DIG || (rp == 9*LD_B1B_DIG && x[a]<th[0])) {
uint32_t carry = 0;
e2 -= 29;
for (k=(z-1 & MASK); ; k=(k-1 & MASK)) {
uint64_t tmp = ((uint64_t)x[k] << 29) + carry;
if (tmp > 1000000000) {
carry = tmp / 1000000000;
x[k] = tmp % 1000000000;
} else {
carry = 0;
x[k] = tmp;
}
if (k==(z-1 & MASK) && k!=a && !x[k]) z = k;
if (k==a) break;
}
if (carry) {
rp += 9;
if (a == z) {
z = (z-1 & MASK);
x[z-1 & MASK] |= x[z];
}
a = (a-1 & MASK);
x[a] = carry;
}
}
/* Downscale until exactly number of bits are left of radix point */
for (;;) {
uint32_t carry = 0;
int sh = 1;
for (i=0; i<LD_B1B_DIG; i++) {
k = (a+i & MASK);
if (k == z || x[k] < th[i]) {
i=LD_B1B_DIG;
break;
}
if (x[a+i & MASK] > th[i]) break;
}
if (i==LD_B1B_DIG && rp==9*LD_B1B_DIG) break;
/* FIXME: find a way to compute optimal sh */
if (rp > 9+9*LD_B1B_DIG) sh = 9;
e2 += sh;
for (k=a; k!=z; k=(k+1 & MASK)) {
uint32_t tmp = x[k] & (1<<sh)-1;
x[k] = (x[k]>>sh) + carry;
carry = (1000000000>>sh) * tmp;
if (k==a && !x[k]) {
a = (a+1 & MASK);
i--;
rp -= 9;
}
}
if (carry) {
if ((z+1 & MASK) != a) {
x[z] = carry;
z = (z+1 & MASK);
} else x[z-1 & MASK] |= 1;
}
}
/* Assemble desired bits into floating point variable */
for (y=i=0; i<LD_B1B_DIG; i++) {
if ((a+i & MASK)==z) x[z=(z+1 & MASK)] = 0;
y = 1000000000.0L * y + x[a+i & MASK];
}
y *= sign;
/* Limit precision for denormal results */
if (bits > LDBL_MANT_DIG+e2-emin) {
bits = LDBL_MANT_DIG+e2-emin;
if (bits<0) bits=0;
}
/* Calculate bias term to force rounding, move out lower bits */
if (bits < LDBL_MANT_DIG) {
bias = copysignl(scalbn(1, 2*LDBL_MANT_DIG-bits-1), y);
frac = fmodl(y, scalbn(1, LDBL_MANT_DIG-bits));
y -= frac;
y += bias;
}
/* Process tail of decimal input so it can affect rounding */
if ((a+i & MASK) != z) {
uint32_t t = x[a+i & MASK];
if (t < 500000000 && (t || (a+i+1 & MASK) != z))
frac += 0.25*sign;
else if (t > 500000000)
frac += 0.75*sign;
else if (t == 500000000) {
if ((a+i+1 & MASK) == z)
frac += 0.5*sign;
else
frac += 0.75*sign;
}
if (LDBL_MANT_DIG-bits >= 2 && !fmodl(frac, 1))
frac++;
}
y += frac;
y -= bias;
y = scalbnl(y, e2);
if (!y) errno = ERANGE;
return y;
}
static long double hexfloat(FILE *f, int bits, int emin, int sign, int pok)
{
uint32_t x = 0;
long double y = 0;
long double scale = 1;
long double bias = 0;
int gottail = 0, gotrad = 0, gotdig = 0;
long long rp = 0;
long long dc = 0;
long long e2 = 0;
int d;
int c;
c = shgetc(f);
/* Skip leading zeros */
for (; c=='0'; c = shgetc(f)) gotdig = 1;
if (c=='.') {
gotrad = 1;
c = shgetc(f);
/* Count zeros after the radix point before significand */
for (rp=0; c=='0'; c = shgetc(f), rp--) gotdig = 1;
}
for (; c-'0'<10U || (c|32)-'a'<6U || c=='.'; c = shgetc(f)) {
if (c=='.') {
if (gotrad) break;
rp = dc;
gotrad = 1;
} else {
gotdig = 1;
if (c > '9') d = (c|32)+10-'a';
else d = c-'0';
if (dc<8) {
x = x*16 + d;
} else if (dc < LDBL_MANT_DIG/4+1) {
y += d*(scale/=16);
} else if (d && !gottail) {
y += 0.5*scale;
gottail = 1;
}
dc++;
}
}
if (!gotdig) {
shunget(f);
if (pok) {
shunget(f);
if (gotrad) shunget(f);
} else {
shlim(f, 0);
}
return 0;
}
if (!gotrad) rp = dc;
while (dc<8) x *= 16, dc++;
if ((c|32)=='p') {
e2 = scanexp(f, pok);
if (e2 == LLONG_MIN) {
if (pok) {
shunget(f);
} else {
shlim(f, 0);
return 0;
}
e2 = 0;
}
} else {
shunget(f);
}
e2 += 4*rp - 32;
if (!x) return sign * 0.0;
if (e2 > -emin) {
errno = ERANGE;
return sign * LDBL_MAX * LDBL_MAX;
}
if (e2 < emin-2*LDBL_MANT_DIG) {
errno = ERANGE;
return sign * LDBL_MIN * LDBL_MIN;
}
while (x < 0x80000000) {
if (y>=0.5) {
x += x + 1;
y += y - 1;
} else {
x += x;
y += y;
}
e2--;
}
if (bits > 32+e2-emin) {
bits = 32+e2-emin;
if (bits<0) bits=0;
}
if (bits < LDBL_MANT_DIG)
bias = copysignl(scalbn(1, 32+LDBL_MANT_DIG-bits-1), sign);
if (bits<32 && y && !(x&1)) x++, y=0;
y = bias + sign*(long double)x + sign*y;
y -= bias;
if (!y) errno = ERANGE;
return scalbnl(y, e2);
}
long double __floatscan(FILE *f, int c, int prec, int pok)
{
int sign = 1;
int i;
int bits;
int emin;
switch (prec) {
case 0:
bits = FLT_MANT_DIG;
emin = FLT_MIN_EXP-bits;
break;
case 1:
bits = DBL_MANT_DIG;
emin = DBL_MIN_EXP-bits;
break;
case 2:
bits = LDBL_MANT_DIG;
emin = LDBL_MIN_EXP-bits;
break;
default:
return 0;
}
if (c<0) c = shgetc(f);
if (c=='+' || c=='-') {
sign -= 2*(c=='-');
c = shgetc(f);
}
for (i=0; i<8 && (c|32)=="infinity"[i]; i++)
if (i<7) c = shgetc(f);
if (i==3 || i==8 || (i>3 && pok)) {
if (i!=8) {
shunget(f);
if (pok) for (; i>3; i--) shunget(f);
}
return sign * INFINITY;
}
if (!i) for (i=0; i<3 && (c|32)=="nan"[i]; i++)
if (i<3) c = shgetc(f);
if (i==3) {
return NAN;
}
if (i) {
shunget(f);
errno = EINVAL;
shlim(f, 0);
return 0;
}
if (c=='0') {
c = shgetc(f);
if ((c|32) == 'x')
return hexfloat(f, bits, emin, sign, pok);
shunget(f);
c = '0';
}
return decfloat(f, c, bits, emin, sign, pok);
}
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