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-rw-r--r--sysdeps/powerpc/fpu/math_ldbl.h189
1 files changed, 189 insertions, 0 deletions
diff --git a/sysdeps/powerpc/fpu/math_ldbl.h b/sysdeps/powerpc/fpu/math_ldbl.h
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+#ifndef _MATH_PRIVATE_H_
+#error "Never use <math_ldbl.h> directly; include <math_private.h> instead."
+#endif
+
+#include <sysdeps/ieee754/ldbl-128/math_ldbl.h>
+#include <ieee754.h>
+
+static inline void
+ldbl_extract_mantissa (int64_t *hi64, u_int64_t *lo64, int *exp, long double x)
+{
+ /* We have 105 bits of mantissa plus one implicit digit. Since
+ 106 bits are representable we use the first implicit digit for
+ the number before the decimal point and the second implicit bit
+ as bit 53 of the mantissa. */
+ unsigned long long hi, lo;
+ int ediff;
+ union ibm_extended_long_double eldbl;
+ eldbl.d = x;
+ *exp = eldbl.ieee.exponent - IBM_EXTENDED_LONG_DOUBLE_BIAS;
+
+ lo = ((long long)eldbl.ieee.mantissa2 << 32) | eldbl.ieee.mantissa3;
+ hi = ((long long)eldbl.ieee.mantissa0 << 32) | eldbl.ieee.mantissa1;
+ /* If the lower double is not a denomal or zero then set the hidden
+ 53rd bit. */
+ if (eldbl.ieee.exponent2 > 0x001)
+ {
+ lo |= (1ULL << 52);
+ lo = lo << 7; /* pre-shift lo to match ieee854. */
+ /* The lower double is normalized separately from the upper. We
+ may need to adjust the lower manitissa to reflect this. */
+ ediff = eldbl.ieee.exponent - eldbl.ieee.exponent2;
+ if (ediff > 53)
+ lo = lo >> (ediff-53);
+ }
+ hi |= (1ULL << 52);
+
+ if ((eldbl.ieee.negative != eldbl.ieee.negative2)
+ && ((eldbl.ieee.exponent2 != 0) && (lo != 0LL)))
+ {
+ hi--;
+ lo = (1ULL << 60) - lo;
+ if (hi < (1ULL << 52))
+ {
+ /* we have a borrow from the hidden bit, so shift left 1. */
+ hi = (hi << 1) | (lo >> 59);
+ lo = 0xfffffffffffffffLL & (lo << 1);
+ *exp = *exp - 1;
+ }
+ }
+ *lo64 = (hi << 60) | lo;
+ *hi64 = hi >> 4;
+}
+
+static inline long double
+ldbl_insert_mantissa (int sign, int exp, int64_t hi64, u_int64_t lo64)
+{
+ union ibm_extended_long_double u;
+ unsigned long hidden2, lzcount;
+ unsigned long long hi, lo;
+
+ u.ieee.negative = sign;
+ u.ieee.negative2 = sign;
+ u.ieee.exponent = exp + IBM_EXTENDED_LONG_DOUBLE_BIAS;
+ u.ieee.exponent2 = exp-53 + IBM_EXTENDED_LONG_DOUBLE_BIAS;
+ /* Expect 113 bits (112 bits + hidden) right justified in two longs.
+ The low order 53 bits (52 + hidden) go into the lower double */
+ lo = (lo64 >> 7)& ((1ULL << 53) - 1);
+ hidden2 = (lo64 >> 59) & 1ULL;
+ /* The high order 53 bits (52 + hidden) go into the upper double */
+ hi = (lo64 >> 60) & ((1ULL << 11) - 1);
+ hi |= (hi64 << 4);
+
+ if (lo != 0LL)
+ {
+ /* hidden2 bit of low double controls rounding of the high double.
+ If hidden2 is '1' then round up hi and adjust lo (2nd mantissa)
+ plus change the sign of the low double to compensate. */
+ if (hidden2)
+ {
+ hi++;
+ u.ieee.negative2 = !sign;
+ lo = (1ULL << 53) - lo;
+ }
+ /* The hidden bit of the lo mantissa is zero so we need to
+ normalize the it for the low double. Shift it left until the
+ hidden bit is '1' then adjust the 2nd exponent accordingly. */
+
+ if (sizeof (lo) == sizeof (long))
+ lzcount = __builtin_clzl (lo);
+ else if ((lo >> 32) != 0)
+ lzcount = __builtin_clzl ((long) (lo >> 32));
+ else
+ lzcount = __builtin_clzl ((long) lo) + 32;
+ lzcount = lzcount - 11;
+ if (lzcount > 0)
+ {
+ int expnt2 = u.ieee.exponent2 - lzcount;
+ if (expnt2 >= 1)
+ {
+ /* Not denormal. Normalize and set low exponent. */
+ lo = lo << lzcount;
+ u.ieee.exponent2 = expnt2;
+ }
+ else
+ {
+ /* Is denormal. */
+ lo = lo << (lzcount + expnt2);
+ u.ieee.exponent2 = 0;
+ }
+ }
+ }
+ else
+ {
+ u.ieee.negative2 = 0;
+ u.ieee.exponent2 = 0;
+ }
+
+ u.ieee.mantissa3 = lo & ((1ULL << 32) - 1);
+ u.ieee.mantissa2 = (lo >> 32) & ((1ULL << 20) - 1);
+ u.ieee.mantissa1 = hi & ((1ULL << 32) - 1);
+ u.ieee.mantissa0 = (hi >> 32) & ((1ULL << 20) - 1);
+ return u.d;
+}
+
+/* gcc generates disgusting code to pack and unpack long doubles.
+ This tells gcc that pack/unpack is really a nop. We use fr1/fr2
+ because those are the regs used to pass/return a single
+ long double arg. */
+static inline long double
+ldbl_pack (double a, double aa)
+{
+ register long double x __asm__ ("fr1");
+ register double xh __asm__ ("fr1");
+ register double xl __asm__ ("fr2");
+ xh = a;
+ xl = aa;
+ __asm__ ("" : "=f" (x) : "f" (xh), "f" (xl));
+ return x;
+}
+
+static inline void
+ldbl_unpack (long double l, double *a, double *aa)
+{
+ register long double x __asm__ ("fr1");
+ register double xh __asm__ ("fr1");
+ register double xl __asm__ ("fr2");
+ x = l;
+ __asm__ ("" : "=f" (xh), "=f" (xl) : "f" (x));
+ *a = xh;
+ *aa = xl;
+}
+
+
+/* Convert a finite long double to canonical form.
+ Does not handle +/-Inf properly. */
+static inline void
+ldbl_canonicalize (double *a, double *aa)
+{
+ double xh, xl;
+
+ xh = *a + *aa;
+ xl = (*a - xh) + *aa;
+ *a = xh;
+ *aa = xl;
+}
+
+/* Simple inline nearbyint (double) function .
+ Only works in the default rounding mode
+ but is useful in long double rounding functions. */
+static inline double
+ldbl_nearbyint (double a)
+{
+ double two52 = 0x10000000000000LL;
+
+ if (__builtin_expect ((__builtin_fabs (a) < two52), 1))
+ {
+ if (__builtin_expect ((a > 0.0), 1))
+ {
+ a += two52;
+ a -= two52;
+ }
+ else if (__builtin_expect ((a < 0.0), 1))
+ {
+ a = two52 - a;
+ a = -(a - two52);
+ }
+ }
+ return a;
+}