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[/] [eco32/] [trunk/] [fp/] [implementation/] [ultimate2/] [fp.c] - Rev 53
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/* * fp.c -- floating point arithmetic */ #include "fp.h" #define sign_bit ((unsigned) 0x80000000) #define ROUND_OFF 1 #define ROUND_UP 2 #define ROUND_DOWN 3 #define ROUND_NEAR 4 #define X_BIT (1<<8) #define Z_BIT (1<<9) #define U_BIT (1<<10) #define O_BIT (1<<11) #define I_BIT (1<<12) #define W_BIT (1<<13) #define V_BIT (1<<14) #define D_BIT (1<<15) #define E_BIT (1<<18) #define zero_exponent (-1000) #define bignum_prec 157 #define magic_offset 2112 #define origin 37 #define buf0 (buf+8) #define buf_max (buf+777) #include <stdio.h> #include <string.h> #include <ctype.h> typedef struct { int a; int b; tetra dat[bignum_prec]; } bignum; octa zero_octa; octa neg_one = { -1, -1 }; octa inf_octa = { 0x7ff00000, 0 }; octa standard_NaN = { 0x7ff80000, 0 }; octa aux; bool overflow; int cur_round; int exceptions; octa val; char *next_char; static char buf[785] = "00000000"; static void bignum_times_ten (bignum *); static void bignum_dec (bignum *, bignum *, tetra); static int bignum_compare (bignum *, bignum *); static void bignum_double (bignum *); octa oplus(octa y, octa z) { octa x; x.h = y.h + z.h; x.l = y.l + z.l; if (x.l < y.l) x.h++; return x; } octa ominus(octa y, octa z) { octa x; x.h = y.h - z.h; x.l = y.l - z.l; if (x.l > y.l) x.h--; return x; } octa incr(octa y, int delta) { octa x; x.h = y.h; x.l = y.l + delta; if (delta >= 0) { if (x.l < y.l) x.h++; } else if (x.l > y.l) x.h--; return x; } octa shift_left(octa y, int s) { while (s >= 32) y.h = y.l, y.l = 0, s -= 32; if (s) { tetra yhl = y.h << s, ylh = y.l >> (32 - s); y.h = yhl + ylh; y.l <<= s; } return y; } octa shift_right(octa y, int s, int u) { while (s >= 32) y.l = y.h, y.h = (u ? 0 : -(y.h >> 31)), s -= 32; if (s) { tetra yhl = y.h << (32 - s), ylh = y.l >> s; y.h = (u ? 0 : (-(y.h >> 31)) << (32 - s)) + (y.h >> s); y.l = yhl + ylh; } return y; } octa omult(octa y, octa z) { int i, j, k; tetra u[4], v[4], w[8]; tetra t; octa acc; u[3] = y.h >> 16, u[2] = y.h & 0xffff, u[1] = y.l >> 16, u[0] = y.l & 0xffff; v[3] = z.h >> 16, v[2] = z.h & 0xffff, v[1] = z.l >> 16, v[0] = z.l & 0xffff; for (j = 0; j < 4; j++) w[j] = 0; for (j = 0; j < 4; j++) if (!v[j]) w[j + 4] = 0; else { for (i = k = 0; i < 4; i++) { t = u[i] * v[j] + w[i + j] + k; w[i + j] = t & 0xffff, k = t >> 16; } w[j + 4] = k; } aux.h = (w[7] << 16) + w[6], aux.l = (w[5] << 16) + w[4]; acc.h = (w[3] << 16) + w[2], acc.l = (w[1] << 16) + w[0]; return acc; } octa odiv(octa x, octa y, octa z) { int i, j, k, n, d; tetra u[8], v[4], q[4], mask, qhat, rhat, vh, vmh; tetra t; octa acc; if (x.h > z.h || (x.h == z.h && x.l >= z.l)) { aux = y; return x; } u[7] = x.h >> 16, u[6] = x.h & 0xffff, u[5] = x.l >> 16, u[4] = x.l & 0xffff; u[3] = y.h >> 16, u[2] = y.h & 0xffff, u[1] = y.l >> 16, u[0] = y.l & 0xffff; v[3] = z.h >> 16, v[2] = z.h & 0xffff, v[1] = z.l >> 16, v[0] = z.l & 0xffff; for (n = 4; v[n - 1] == 0; n--); vh = v[n - 1]; for (d = 0; vh < 0x8000; d++, vh <<= 1); for (j = k = 0; j < n + 4; j++) { t = (u[j] << d) + k; u[j] = t & 0xffff, k = t >> 16; } for (j = k = 0; j < n; j++) { t = (v[j] << d) + k; v[j] = t & 0xffff, k = t >> 16; } vh = v[n - 1]; vmh = (n > 1 ? v[n - 2] : 0); for (j = 3; j >= 0; j--) { t = (u[j + n] << 16) + u[j + n - 1]; qhat = t / vh, rhat = t - vh * qhat; if (n > 1) while (qhat == 0x10000 || qhat * vmh > (rhat << 16) + u[j + n - 2]) { qhat--, rhat += vh; if (rhat >= 0x10000) break; } for (i = k = 0; i < n; i++) { t = u[i + j] + 0xffff0000 - k - qhat * v[i]; u[i + j] = t & 0xffff, k = 0xffff - (t >> 16); } if (u[j + n] != k) { qhat--; for (i = k = 0; i < n; i++) { t = u[i + j] + v[i] + k; u[i + j] = t & 0xffff, k = t >> 16; } } q[j] = qhat; } mask = (1 << d) - 1; for (j = 3; j >= n; j--) u[j] = 0; for (k = 0; j >= 0; j--) { t = (k << 16) + u[j]; u[j] = t >> d, k = t & mask; } acc.h = (q[3] << 16) + q[2], acc.l = (q[1] << 16) + q[0]; aux.h = (u[3] << 16) + u[2], aux.l = (u[1] << 16) + u[0]; return acc; } octa fpack (f, e, s, r) octa f; int e; char s; int r; { octa o; if (e > 0x7fd) e = 0x7ff, o = zero_octa; else { if (e < 0) { if (e < -54) o.h = 0, o.l = 1; else { octa oo; o = shift_right (f, -e, 1); oo = shift_left (o, -e); if (oo.l != f.l || oo.h != f.h) o.l |= 1; } e = 0; } else o = f; } if (o.l & 3) exceptions |= X_BIT; switch (r) { case ROUND_DOWN: if (s == '-') o = incr (o, 3); break; case ROUND_UP: if (s != '-') o = incr (o, 3); case ROUND_OFF: break; case ROUND_NEAR: o = incr (o, o.l & 4 ? 2 : 1); break; } o = shift_right (o, 2, 1); o.h += e << 20; if (o.h >= 0x7ff00000) exceptions |= O_BIT + X_BIT; else if (o.h < 0x100000) exceptions |= U_BIT; if (s == '-') o.h |= sign_bit; return o; ; } tetra sfpack (f, e, s, r) octa f; int e; char s; int r; { tetra o; if (e > 0x47d) e = 0x47f, o = 0; else { o = shift_left (f, 3).h; if (f.l & 0x1fffffff) o |= 1; if (e < 0x380) { if (e < 0x380 - 25) o = 1; else { tetra o0, oo; o0 = o; o = o >> (0x380 - e); oo = o << (0x380 - e); if (oo != o0) o |= 1; } e = 0x380; } } if (o & 3) exceptions |= X_BIT; switch (r) { case ROUND_DOWN: if (s == '-') o += 3; break; case ROUND_UP: if (s != '-') o += 3; case ROUND_OFF: break; case ROUND_NEAR: o += (o & 4 ? 2 : 1); break; } o = o >> 2; o += (e - 0x380) << 23; if (o >= 0x7f800000) exceptions |= O_BIT + X_BIT; else if (o < 0x100000) exceptions |= U_BIT; if (s == '-') o |= sign_bit; return o; ; } ftype funpack (x, f, e, s) octa x; octa *f; int *e; char *s; { int ee; exceptions = 0; *s = (x.h & sign_bit ? '-' : '+'); *f = shift_left (x, 2); f->h &= 0x3fffff; ee = (x.h >> 20) & 0x7ff; if (ee) { *e = ee - 1; f->h |= 0x400000; return (ee < 0x7ff ? num : f->h == 0x400000 && !f->l ? inf : nan); } if (!x.l && !f->h) { *e = zero_exponent; return zro; } do { ee--; *f = shift_left (*f, 1); } while (!(f->h & 0x400000)); *e = ee; return num; } ftype sfunpack (x, f, e, s) tetra x; octa *f; int *e; char *s; { int ee; exceptions = 0; *s = (x & sign_bit ? '-' : '+'); f->h = (x >> 1) & 0x3fffff, f->l = x << 31; ee = (x >> 23) & 0xff; if (ee) { *e = ee + 0x380 - 1; f->h |= 0x400000; return (ee < 0xff ? num : (x & 0x7fffffff) == 0x7f800000 ? inf : nan); } if (!(x & 0x7fffffff)) { *e = zero_exponent; return zro; } do { ee--; *f = shift_left (*f, 1); } while (!(f->h & 0x400000)); *e = ee + 0x380; return num; } octa load_sf (z) tetra z; { octa f, x; int e; char s; ftype t; t = sfunpack (z, &f, &e, &s); switch (t) { case zro: x = zero_octa; break; case num: return fpack (f, e, s, ROUND_OFF); case inf: x = inf_octa; break; case nan: x = shift_right (f, 2, 1); x.h |= 0x7ff00000; break; } if (s == '-') x.h |= sign_bit; return x; } tetra store_sf (x) octa x; { octa f; tetra z; int e; char s; ftype t; t = funpack (x, &f, &e, &s); switch (t) { case zro: z = 0; break; case num: return sfpack (f, e, s, cur_round); case inf: z = 0x7f800000; break; case nan: if (!(f.h & 0x200000)) { f.h |= 0x200000; exceptions |= I_BIT; } z = 0x7f800000 | (f.h << 1) | (f.l >> 31); break; } if (s == '-') z |= sign_bit; return z; } octa fmult (y, z) octa y, z; { ftype yt, zt; int ye, ze; char ys, zs; octa x, xf, yf, zf; int xe; char xs; yt = funpack (y, &yf, &ye, &ys); zt = funpack (z, &zf, &ze, &zs); xs = ys + zs - '+'; switch (4 * yt + zt) { case 4 * nan + nan: if (!(y.h & 0x80000)) exceptions |= I_BIT; case 4 * zro + nan: case 4 * num + nan: case 4 * inf + nan: if (!(z.h & 0x80000)) exceptions |= I_BIT, z.h |= 0x80000; return z; case 4 * nan + zro: case 4 * nan + num: case 4 * nan + inf: if (!(y.h & 0x80000)) exceptions |= I_BIT, y.h |= 0x80000; return y; ; case 4 * zro + zro: case 4 * zro + num: case 4 * num + zro: x = zero_octa; break; case 4 * num + inf: case 4 * inf + num: case 4 * inf + inf: x = inf_octa; break; case 4 * zro + inf: case 4 * inf + zro: x = standard_NaN; exceptions |= I_BIT; break; case 4 * num + num: xe = ye + ze - 0x3fd; x = omult (yf, shift_left (zf, 9)); if (aux.h >= 0x400000) xf = aux; else xf = shift_left (aux, 1), xe--; if (x.h || x.l) xf.l |= 1; return fpack (xf, xe, xs, cur_round); ; } if (xs == '-') x.h |= sign_bit; return x; } octa fdivide (y, z) octa y, z; { ftype yt, zt; int ye, ze; char ys, zs; octa x, xf, yf, zf; int xe; char xs; yt = funpack (y, &yf, &ye, &ys); zt = funpack (z, &zf, &ze, &zs); xs = ys + zs - '+'; switch (4 * yt + zt) { case 4 * nan + nan: if (!(y.h & 0x80000)) exceptions |= I_BIT; case 4 * zro + nan: case 4 * num + nan: case 4 * inf + nan: if (!(z.h & 0x80000)) exceptions |= I_BIT, z.h |= 0x80000; return z; case 4 * nan + zro: case 4 * nan + num: case 4 * nan + inf: if (!(y.h & 0x80000)) exceptions |= I_BIT, y.h |= 0x80000; return y; ; case 4 * zro + inf: case 4 * zro + num: case 4 * num + inf: x = zero_octa; break; case 4 * num + zro: exceptions |= Z_BIT; case 4 * inf + num: case 4 * inf + zro: x = inf_octa; break; case 4 * zro + zro: case 4 * inf + inf: x = standard_NaN; exceptions |= I_BIT; break; case 4 * num + num: xe = ye - ze + 0x3fd; xf = odiv (yf, zero_octa, shift_left (zf, 9)); if (xf.h >= 0x800000) { aux.l |= xf.l & 1; xf = shift_right (xf, 1, 1); xe++; } if (aux.h || aux.l) xf.l |= 1; return fpack (xf, xe, xs, cur_round); ; } if (xs == '-') x.h |= sign_bit; return x; } octa fplus (y, z) octa y, z; { ftype yt, zt; int ye, ze; char ys, zs; octa x, xf, yf, zf; int xe, d; char xs; yt = funpack (y, &yf, &ye, &ys); zt = funpack (z, &zf, &ze, &zs); switch (4 * yt + zt) { case 4 * nan + nan: if (!(y.h & 0x80000)) exceptions |= I_BIT; case 4 * zro + nan: case 4 * num + nan: case 4 * inf + nan: if (!(z.h & 0x80000)) exceptions |= I_BIT, z.h |= 0x80000; return z; case 4 * nan + zro: case 4 * nan + num: case 4 * nan + inf: if (!(y.h & 0x80000)) exceptions |= I_BIT, y.h |= 0x80000; return y; ; case 4 * zro + num: return fpack (zf, ze, zs, ROUND_OFF); break; case 4 * num + zro: return fpack (yf, ye, ys, ROUND_OFF); break; case 4 * inf + inf: if (ys != zs) { exceptions |= I_BIT; x = standard_NaN; xs = zs; break; } case 4 * num + inf: case 4 * zro + inf: x = inf_octa; xs = zs; break; case 4 * inf + num: case 4 * inf + zro: x = inf_octa; xs = ys; break; case 4 * num + num: if (y.h != (z.h ^ 0x80000000) || y.l != z.l) { octa o, oo; if (ye < ze || (ye == ze && (yf.h < zf.h || (yf.h == zf.h && yf.l < zf.l)))) { o = yf, yf = zf, zf = o; d = ye, ye = ze, ze = d; d = ys, ys = zs, zs = d; } ; d = ye - ze; xs = ys, xe = ye; if (d) { if (d <= 2) zf = shift_right (zf, d, 1); else if (d > 53) zf.h = 0, zf.l = 1; else { if (ys != zs) d--, xe--, yf = shift_left (yf, 1); o = zf; zf = shift_right (o, d, 1); oo = shift_left (zf, d); if (oo.l != o.l || oo.h != o.h) zf.l |= 1; } } ; if (ys == zs) { xf = oplus (yf, zf); if (xf.h >= 0x800000) xe++, d = xf.l & 1, xf = shift_right (xf, 1, 1), xf.l |= d; } else { xf = ominus (yf, zf); if (xf.h >= 0x800000) xe++, d = xf.l & 1, xf = shift_right (xf, 1, 1), xf.l |= d; else while (xf.h < 0x400000) xe--, xf = shift_left (xf, 1); } return fpack (xf, xe, xs, cur_round); } ; case 4 * zro + zro: x = zero_octa; xs = (ys == zs ? ys : cur_round == ROUND_DOWN ? '-' : '+'); break; } if (xs == '-') x.h |= sign_bit; return x; } int fepscomp (y, z, e, s) octa y, z, e; int s; { octa yf, zf, ef, o, oo; int ye, ze, ee; char ys, zs, es; int yt, zt, et, d; et = funpack (e, &ef, &ee, &es); if (es == '-') return 2; switch (et) { case nan: return 2; case inf: ee = 10000; case num: case zro: break; } yt = funpack (y, &yf, &ye, &ys); zt = funpack (z, &zf, &ze, &zs); switch (4 * yt + zt) { case 4 * nan + nan: case 4 * nan + inf: case 4 * nan + num: case 4 * nan + zro: case 4 * inf + nan: case 4 * num + nan: case 4 * zro + nan: return 2; case 4 * inf + inf: return (ys == zs || ee >= 1023); case 4 * inf + num: case 4 * inf + zro: case 4 * num + inf: case 4 * zro + inf: return (s && ee >= 1022); case 4 * zro + zro: return 1; case 4 * zro + num: case 4 * num + zro: if (!s) return 0; case 4 * num + num: break; } if (ye < 0 && yt != zro) yf = shift_left (y, 2), ye = 0; if (ze < 0 && zt != zro) zf = shift_left (z, 2), ze = 0; ; if (ye < ze || (ye == ze && (yf.h < zf.h || (yf.h == zf.h && yf.l < zf.l)))) { o = yf, yf = zf, zf = o; d = ye, ye = ze, ze = d; d = ys, ys = zs, zs = d; } ; if (ze == zero_exponent) ze = ye; d = ye - ze; if (!s) ee -= d; if (ee >= 1023) return 1; if (d > 54) o = zero_octa, oo = zf; else o = shift_right (zf, d, 1), oo = shift_left (o, d); if (oo.h != zf.h || oo.l != zf.l) { if (ee < 1020) return 0; o = incr (o, ys == zs ? 0 : 1); } o = (ys == zs ? ominus (yf, o) : oplus (yf, o)); ; if (!o.h && !o.l) return 1; if (ee < 968) return 0; if (ee >= 1021) ef = shift_left (ef, ee - 1021); else ef = shift_right (ef, 1021 - ee, 1); return o.h < ef.h || (o.h == ef.h && o.l <= ef.l); ; } void print_float (x) octa x; { octa f, g; int e; int j, k; bignum ff, gg; bignum tt; char s[18]; char *p; ; if (x.h & sign_bit) printf ("-"); f = shift_left (x, 1); e = f.h >> 21; f.h &= 0x1fffff; if (!f.h && !f.l) { if (!e) { printf ("0."); return; } if (e == 0x7ff) { printf ("Inf"); return; } e--; f.h = 0x3fffff, f.l = 0xffffffff; g.h = 0x400000, g.l = 2; } else { g = incr (f, 1); f = incr (f, -1); if (!e) e = 1; else if (e == 0x7ff) { printf ("NaN"); if (g.h == 0x100000 && g.l == 1) return; e = 0x3ff; } else f.h |= 0x200000, g.h |= 0x200000; } ; k = (magic_offset - e) / 28; ff.dat[k - 1] = shift_right (f, magic_offset + 28 - e - 28 * k, 1).l & 0xfffffff; gg.dat[k - 1] = shift_right (g, magic_offset + 28 - e - 28 * k, 1).l & 0xfffffff; ff.dat[k] = shift_right (f, magic_offset - e - 28 * k, 1).l & 0xfffffff; gg.dat[k] = shift_right (g, magic_offset - e - 28 * k, 1).l & 0xfffffff; ff.dat[k + 1] = shift_left (f, e + 28 * k - (magic_offset - 28)).l & 0xfffffff; gg.dat[k + 1] = shift_left (g, e + 28 * k - (magic_offset - 28)).l & 0xfffffff; ff.a = (ff.dat[k - 1] ? k - 1 : k); ff.b = (ff.dat[k + 1] ? k + 1 : k); gg.a = (gg.dat[k - 1] ? k - 1 : k); gg.b = (gg.dat[k + 1] ? k + 1 : k); ; if (e > 0x401) { int open = x.l & 1; tt.dat[origin] = 10; tt.a = tt.b = origin; for (e = 1; bignum_compare (&gg, &tt) >= open; e++) bignum_times_ten (&tt); p = s; while (1) { bignum_times_ten (&ff); bignum_times_ten (&gg); for (j = '0'; bignum_compare (&ff, &tt) >= 0; j++) bignum_dec (&ff, &tt, 0x10000000), bignum_dec (&gg, &tt, 0x10000000); if (bignum_compare (&gg, &tt) >= open) break; *p++ = j; if (ff.a == bignum_prec - 1 && !open) goto done; } for (k = j; bignum_compare (&gg, &tt) >= open; k++) bignum_dec (&gg, &tt, 0x10000000); *p++ = (j + 1 + k) >> 1; done:; } else { if (ff.a > origin) ff.dat[origin] = 0; for (e = 1, p = s; gg.a > origin || ff.dat[origin] == gg.dat[origin];) { if (gg.a > origin) e--; else *p++ = ff.dat[origin] + '0', ff.dat[origin] = 0, gg.dat[origin] = 0; bignum_times_ten (&ff); bignum_times_ten (&gg); } *p++ = ((ff.dat[origin] + 1 + gg.dat[origin]) >> 1) + '0'; } *p = '\0'; ; if (e > 17 || e < (int) strlen (s) - 17) printf ("%c%s%se%d", s[0], (s[1] ? "." : ""), s + 1, e - 1); else if (e < 0) printf (".%0*d%s", -e, 0, s); else if (strlen (s) >= e) printf ("%.*s.%s", e, s, s + e); else printf ("%s%0*d.", s, e - (int) strlen (s), 0); ; } static void bignum_times_ten (f) bignum *f; { tetra *p, *q; tetra x, carry; for (p = &f->dat[f->b], q = &f->dat[f->a], carry = 0; p >= q; p--) { x = *p * 10 + carry; *p = x & 0xfffffff; carry = x >> 28; } *p = carry; if (carry) f->a--; if (f->dat[f->b] == 0 && f->b > f->a) f->b--; } static int bignum_compare (f, g) bignum *f, *g; { tetra *p, *pp, *q, *qq; if (f->a != g->a) return f->a > g->a ? -1 : 1; pp = &f->dat[f->b], qq = &g->dat[g->b]; for (p = &f->dat[f->a], q = &g->dat[g->a]; p <= pp; p++, q++) { if (*p != *q) return *p < *q ? -1 : 1; if (q == qq) return p < pp; } return -1; } static void bignum_dec (f, g, r) bignum *f, *g; tetra r; { tetra *p, *q, *qq; int x, borrow; while (g->b > f->b) f->dat[++f->b] = 0; qq = &g->dat[g->a]; for (p = &f->dat[g->b], q = &g->dat[g->b], borrow = 0; q >= qq; p--, q--) { x = *p - *q - borrow; if (x >= 0) borrow = 0, *p = x; else borrow = 1, *p = x + r; } for (; borrow; p--) if (*p) borrow = 0, *p = *p - 1; else *p = r - 1; while (f->dat[f->a] == 0) { if (f->a == f->b) { f->a = f->b = bignum_prec - 1, f->dat[bignum_prec - 1] = 0; return; } f->a++; } while (f->dat[f->b] == 0) f->b--; } int scan_const (s) char *s; { char *p, *q; bool NaN; int sign; char *dec_pt; int exp; int zeros; int k, x; char *pp; bignum ff, tt; ; val.h = val.l = 0; p = s; if (*p == '+' || *p == '-') sign = *p++; else sign = '+'; if (strncmp (p, "NaN", 3) == 0) NaN = true, p += 3; else NaN = false; if ((isdigit (*p) && !NaN) || (*p == '.' && isdigit (*(p + 1)))) { for (q = buf0, dec_pt = (char *) 0; isdigit (*p); p++) { val = oplus (val, shift_left (val, 2)); val = incr (shift_left (val, 1), *p - '0'); if (q > buf0 || *p != '0') { if (q < buf_max) *q++ = *p; else if (*(q - 1) == '0') *(q - 1) = *p; } } if (NaN) *q++ = '1'; if (*p == '.') { dec_pt = q; p++; for (zeros = 0; isdigit (*p); p++) if (*p == '0' && q == buf0) zeros++; else if (q < buf_max) *q++ = *p; else if (*(q - 1) == '0') *(q - 1) = *p; } ; next_char = p; if (*p == 'e' && !NaN) { char exp_sign; p++; if (*p == '+' || *p == '-') exp_sign = *p++; else exp_sign = '+'; if (isdigit (*p)) { for (exp = *p++ - '0'; isdigit (*p); p++) if (exp < 1000) exp = 10 * exp + *p - '0'; if (!dec_pt) dec_pt = q, zeros = 0; if (exp_sign == '-') exp = -exp; next_char = p; } } else exp = 0; if (dec_pt) { x = buf + 341 + zeros - dec_pt - exp; if (q == buf0 || x >= 1413) { exp = -99999; goto packit; } if (x < 0) { make_it_infinite:exp = 99999; goto packit; } ff.a = x / 9; for (p = q; p < q + 8; p++) *p = '0'; q = q - 1 - (q + 341 + zeros - dec_pt - exp) % 9; for (p = buf0 - x % 9, k = ff.a; p <= q && k <= 156; p += 9, k++) { for (x = *p - '0', pp = p + 1; pp < p + 9; pp++) x = 10 * x + *pp - '0'; ff.dat[k] = x; } ; ff.b = k - 1; for (x = 0; p <= q; p += 9) if (strncmp (p, "000000000", 9) != 0) x = 1; ff.dat[156] += x; while (ff.dat[ff.b] == 0) ff.b--; ; val = zero_octa; if (ff.a > 36) { for (exp = 0x3fe; ff.a > 36; exp--) bignum_double (&ff); for (k = 54; k; k--) { if (ff.dat[36]) { if (k >= 32) val.h |= 1 << (k - 32); else val.l |= 1 << k; ff.dat[36] = 0; if (ff.b == 36) break; } bignum_double (&ff); } } else { tt.a = tt.b = 36, tt.dat[36] = 2; for (exp = 0x3fe; bignum_compare (&ff, &tt) >= 0; exp++) bignum_double (&tt); for (k = 54; k; k--) { bignum_double (&ff); if (bignum_compare (&ff, &tt) >= 0) { if (k >= 32) val.h |= 1 << (k - 32); else val.l |= 1 << k; bignum_dec (&ff, &tt, 1000000000); if (ff.a == bignum_prec - 1) break; } } } if (k == 0) val.l |= 1; ; packit: val = fpack (val, exp, sign, ROUND_NEAR); if (NaN) { if ((val.h & 0x7fffffff) == 0x40000000) val.h |= 0x7fffffff, val.l = 0xffffffff; else if ((val.h & 0x7fffffff) == 0x3ff00000 && !val.l) val.h |= 0x40000000, val.l = 1; else val.h |= 0x40000000; } ; return 1; } ; if (sign == '-') val = ominus (zero_octa, val); return 0; } ; if (NaN) { next_char = p; val.h = 0x600000, exp = 0x3fe; goto packit; } ; if (strncmp (p, "Inf", 3) == 0) { next_char = p + 3; goto make_it_infinite; } ; next_char = s; return -1; } static void bignum_double (f) bignum *f; { tetra *p, *q; int x, carry; for (p = &f->dat[f->b], q = &f->dat[f->a], carry = 0; p >= q; p--) { x = *p + *p + carry; if (x >= 1000000000) carry = 1, *p = x - 1000000000; else carry = 0, *p = x; } *p = carry; if (carry) f->a--; if (f->dat[f->b] == 0 && f->b > f->a) f->b--; } int fcomp (y, z) octa y, z; { ftype yt, zt; int ye, ze; char ys, zs; octa yf, zf; int x; yt = funpack (y, &yf, &ye, &ys); zt = funpack (z, &zf, &ze, &zs); switch (4 * yt + zt) { case 4 * nan + nan: case 4 * zro + nan: case 4 * num + nan: case 4 * inf + nan: case 4 * nan + zro: case 4 * nan + num: case 4 * nan + inf: return 2; case 4 * zro + zro: return 0; case 4 * zro + num: case 4 * num + zro: case 4 * zro + inf: case 4 * inf + zro: case 4 * num + num: case 4 * num + inf: case 4 * inf + num: case 4 * inf + inf: if (ys != zs) x = 1; else if (y.h > z.h) x = 1; else if (y.h < z.h) x = -1; else if (y.l > z.l) x = 1; else if (y.l < z.l) x = -1; else return 0; break; } return (ys == '-' ? -x : x); } octa fintegerize (z, r) octa z; int r; { ftype zt; int ze; char zs; octa xf, zf; zt = funpack (z, &zf, &ze, &zs); if (!r) r = cur_round; switch (zt) { case nan: if (!(z.h & 0x80000)) { exceptions |= I_BIT; z.h |= 0x80000; } case inf: case zro: return z; case num: if (ze >= 1074) return fpack (zf, ze, zs, ROUND_OFF); if (ze <= 1020) xf.h = 0, xf.l = 1; else { octa oo; xf = shift_right (zf, 1074 - ze, 1); oo = shift_left (xf, 1074 - ze); if (oo.l != zf.l || oo.h != zf.h) xf.l |= 1; } switch (r) { case ROUND_DOWN: if (zs == '-') xf = incr (xf, 3); break; case ROUND_UP: if (zs != '-') xf = incr (xf, 3); case ROUND_OFF: break; case ROUND_NEAR: xf = incr (xf, xf.l & 4 ? 2 : 1); break; } xf.l &= 0xfffffffc; if (ze >= 1022) return fpack (shift_left (xf, 1074 - ze), ze, zs, ROUND_OFF); if (xf.l) xf.h = 0x3ff00000, xf.l = 0; if (zs == '-') xf.h |= sign_bit; return xf; ; } /* never reached */ return zero_octa; } octa fixit (z, r) octa z; int r; { ftype zt; int ze; char zs; octa zf, o; zt = funpack (z, &zf, &ze, &zs); if (!r) r = cur_round; switch (zt) { case nan: case inf: exceptions |= I_BIT; return z; case zro: return zero_octa; case num: if (funpack (fintegerize (z, r), &zf, &ze, &zs) == zro) return zero_octa; if (ze <= 1076) o = shift_right (zf, 1076 - ze, 1); else { if (ze > 1085 || (ze == 1085 && (zf.h > 0x400000 || (zf.h == 0x400000 && (zf.l || zs != '-'))))) exceptions |= W_BIT; if (ze >= 1140) return zero_octa; o = shift_left (zf, ze - 1076); } return (zs == '-' ? ominus (zero_octa, o) : o); } /* never reached */ return zero_octa; } octa floatit (z, r, u, p) octa z; int r; int u; int p; { int e; char s; int t; exceptions = 0; if (!z.h && !z.l) return zero_octa; if (!r) r = cur_round; if (!u && (z.h & sign_bit)) s = '-', z = ominus (zero_octa, z); else s = '+'; e = 1076; while (z.h < 0x400000) e--, z = shift_left (z, 1); while (z.h >= 0x800000) { e++; t = z.l & 1; z = shift_right (z, 1, 1); z.l |= t; } if (p) { int ex; tetra t; t = sfpack (z, e, s, r); ex = exceptions; sfunpack (t, &z, &e, &s); exceptions = ex; } ; return fpack (z, e, s, r); } octa froot (z, r) octa z; int r; { ftype zt; int ze; char zs; octa x, xf, rf, zf; int xe, k; if (!r) r = cur_round; zt = funpack (z, &zf, &ze, &zs); if (zs == '-' && zt != zro) exceptions |= I_BIT, x = standard_NaN; else switch (zt) { case nan: if (!(z.h & 0x80000)) exceptions |= I_BIT, z.h |= 0x80000; return z; case inf: case zro: x = z; break; case num: xf.h = 0, xf.l = 2; xe = (ze + 0x3fe) >> 1; if (ze & 1) zf = shift_left (zf, 1); rf.h = 0, rf.l = (zf.h >> 22) - 1; for (k = 53; k; k--) { rf = shift_left (rf, 2); xf = shift_left (xf, 1); if (k >= 43) rf = incr (rf, (zf.h >> (2 * (k - 43))) & 3); else if (k >= 27) rf = incr (rf, (zf.l >> (2 * (k - 27))) & 3); if ((rf.l > xf.l && rf.h >= xf.h) || rf.h > xf.h) { xf.l++; rf = ominus (rf, xf); xf.l++; } } if (rf.h || rf.l) xf.l++; return fpack (xf, xe, '+', r); ; } if (zs == '-') x.h |= sign_bit; return x; } octa fremstep(octa y, octa z, int delta) { ftype yt, zt; int ye, ze; char xs, ys, zs; octa x, xf, yf, zf; int xe, thresh, odd; yt = funpack (y, &yf, &ye, &ys); zt = funpack (z, &zf, &ze, &zs); switch (4 * yt + zt) { case 4 * nan + nan: if (!(y.h & 0x80000)) exceptions |= I_BIT; case 4 * zro + nan: case 4 * num + nan: case 4 * inf + nan: if (!(z.h & 0x80000)) exceptions |= I_BIT, z.h |= 0x80000; return z; case 4 * nan + zro: case 4 * nan + num: case 4 * nan + inf: if (!(y.h & 0x80000)) exceptions |= I_BIT, y.h |= 0x80000; return y; case 4 * zro + zro: case 4 * num + zro: case 4 * inf + zro: case 4 * inf + num: case 4 * inf + inf: x = standard_NaN; exceptions |= I_BIT; break; case 4 * zro + num: case 4 * zro + inf: case 4 * num + inf: return y; case 4 * num + num: odd = 0; thresh = ye - delta; if (thresh < ze) thresh = ze; while (ye >= thresh) { if (yf.h == zf.h && yf.l == zf.l) goto zero_out; if (yf.h < zf.h || (yf.h == zf.h && yf.l < zf.l)) { if (ye == ze) goto try_complement; ye--, yf = shift_left (yf, 1); } yf = ominus (yf, zf); if (ye == ze) odd = 1; while (yf.h < 0x400000) ye--, yf = shift_left (yf, 1); } if (ye >= ze) { exceptions |= E_BIT; return fpack (yf, ye, ys, ROUND_OFF); } if (ye < ze - 1) return fpack (yf, ye, ys, ROUND_OFF); yf = shift_right (yf, 1, 1); try_complement:xf = ominus (zf, yf), xe = ze, xs = '+' + '-' - ys; if (xf.h > yf.h || (xf.h == yf.h && (xf.l > yf.l || (xf.l == yf.l && !odd)))) xf = yf, xs = ys; while (xf.h < 0x400000) xe--, xf = shift_left (xf, 1); return fpack (xf, xe, xs, ROUND_OFF); zero_out:x = zero_octa; } if (ys == '-') x.h |= sign_bit; return x; } /**************************************************************/ static octa freg[32]; void addFloat(int rd, int rs1, int rs2) { freg[rd] = fplus(freg[rs1], freg[rs2]); } void subFloat(int rd, int rs1, int rs2) { octa aux; aux = freg[rs2]; if (fcomp(aux, zero_octa) != 2) { aux.h ^= sign_bit; } freg[rd] = fplus(freg[rs1], aux); } void mulFloat(int rd, int rs1, int rs2) { freg[rd] = fmult(freg[rs1], freg[rs2]); } void divFloat(int rd, int rs1, int rs2) { freg[rd] = fdivide(freg[rs1], freg[rs2]); } /**************************************************************/ int main(void) { return 0; }
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