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authorSiddhesh Poyarekar <siddhesh@redhat.com>2013-03-07 12:23:29 +0530
committerSiddhesh Poyarekar <siddhesh@redhat.com>2013-03-07 12:23:29 +0530
commit82a9811d29c00161c7c8ea7f70e2cc30988e192e (patch)
tree6cf24e5b5c67827b83c04f1ce12ef1af90680605 /sysdeps
parentadbb8027be47b3295367019b2f45863ea3d6c727 (diff)
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Use generic mpa.c code for everything except __mul and __sqr
Diffstat (limited to 'sysdeps')
-rw-r--r--sysdeps/ieee754/dbl-64/mpa.c4
-rw-r--r--sysdeps/powerpc/powerpc32/power4/fpu/mpa.c632
-rw-r--r--sysdeps/powerpc/powerpc64/power4/fpu/mpa.c632
3 files changed, 12 insertions, 1256 deletions
diff --git a/sysdeps/ieee754/dbl-64/mpa.c b/sysdeps/ieee754/dbl-64/mpa.c
index 8fc2626f76..0766476544 100644
--- a/sysdeps/ieee754/dbl-64/mpa.c
+++ b/sysdeps/ieee754/dbl-64/mpa.c
@@ -611,6 +611,7 @@ __sub (const mp_no *x, const mp_no *y, mp_no *z, int p)
}
}
+#ifndef NO__MUL
/* Multiply *X and *Y and store result in *Z. X and Y may overlap but not X
and Z or Y and Z. For P in [1, 2, 3], the exact result is truncated to P
digits. In case P > 3 the error is bounded by 1.001 ULP. */
@@ -761,7 +762,9 @@ __mul (const mp_no *x, const mp_no *y, mp_no *z, int p)
EZ = e;
Z[0] = X[0] * Y[0];
}
+#endif
+#ifndef NO__SQR
/* Square *X and store result in *Y. X and Y may not overlap. For P in
[1, 2, 3], the exact result is truncated to P digits. In case P > 3 the
error is bounded by 1.001 ULP. This is a faster special case of
@@ -862,6 +865,7 @@ __sqr (const mp_no *x, mp_no *y, int p)
EY = e;
}
+#endif
/* Invert *X and store in *Y. Relative error bound:
- For P = 2: 1.001 * R ^ (1 - P)
diff --git a/sysdeps/powerpc/powerpc32/power4/fpu/mpa.c b/sysdeps/powerpc/powerpc32/power4/fpu/mpa.c
index b22664772e..ef7ada749a 100644
--- a/sysdeps/powerpc/powerpc32/power4/fpu/mpa.c
+++ b/sysdeps/powerpc/powerpc32/power4/fpu/mpa.c
@@ -17,582 +17,12 @@
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, see <http://www.gnu.org/licenses/>.
*/
-/************************************************************************/
-/* MODULE_NAME: mpa.c */
-/* */
-/* FUNCTIONS: */
-/* mcr */
-/* acr */
-/* cpy */
-/* norm */
-/* denorm */
-/* mp_dbl */
-/* dbl_mp */
-/* add_magnitudes */
-/* sub_magnitudes */
-/* add */
-/* sub */
-/* mul */
-/* inv */
-/* dvd */
-/* */
-/* Arithmetic functions for multiple precision numbers. */
-/* Relative errors are bounded */
-/************************************************************************/
+/* Define __mul and __sqr and use the rest from generic code. */
+#define NO__MUL
+#define NO__SQR
-#include "endian.h"
-#include "mpa.h"
-#include <sys/param.h>
-
-const mp_no mpone = {1, {1.0, 1.0}};
-const mp_no mptwo = {1, {1.0, 2.0}};
-
-/* Compare mantissa of two multiple precision numbers regardless of the sign
- and exponent of the numbers. */
-static int
-mcr (const mp_no *x, const mp_no *y, int p)
-{
- long i;
- long p2 = p;
- for (i = 1; i <= p2; i++)
- {
- if (X[i] == Y[i])
- continue;
- else if (X[i] > Y[i])
- return 1;
- else
- return -1;
- }
- return 0;
-}
-
-/* Compare the absolute values of two multiple precision numbers. */
-int
-__acr (const mp_no *x, const mp_no *y, int p)
-{
- long i;
-
- if (X[0] == ZERO)
- {
- if (Y[0] == ZERO)
- i = 0;
- else
- i = -1;
- }
- else if (Y[0] == ZERO)
- i = 1;
- else
- {
- if (EX > EY)
- i = 1;
- else if (EX < EY)
- i = -1;
- else
- i = mcr (x, y, p);
- }
-
- return i;
-}
-
-/* Copy multiple precision number X into Y. They could be the same
- number. */
-void
-__cpy (const mp_no *x, mp_no *y, int p)
-{
- long i;
-
- EY = EX;
- for (i = 0; i <= p; i++)
- Y[i] = X[i];
-}
-
-/* Convert a multiple precision number *X into a double precision
- number *Y, normalized case (|x| >= 2**(-1022))). */
-static void
-norm (const mp_no *x, double *y, int p)
-{
-#define R RADIXI
- long i;
- double a, c, u, v, z[5];
- if (p < 5)
- {
- if (p == 1)
- c = X[1];
- else if (p == 2)
- c = X[1] + R * X[2];
- else if (p == 3)
- c = X[1] + R * (X[2] + R * X[3]);
- else if (p == 4)
- c = (X[1] + R * X[2]) + R * R * (X[3] + R * X[4]);
- }
- else
- {
- for (a = ONE, z[1] = X[1]; z[1] < TWO23;)
- {
- a *= TWO;
- z[1] *= TWO;
- }
-
- for (i = 2; i < 5; i++)
- {
- z[i] = X[i] * a;
- u = (z[i] + CUTTER) - CUTTER;
- if (u > z[i])
- u -= RADIX;
- z[i] -= u;
- z[i - 1] += u * RADIXI;
- }
-
- u = (z[3] + TWO71) - TWO71;
- if (u > z[3])
- u -= TWO19;
- v = z[3] - u;
-
- if (v == TWO18)
- {
- if (z[4] == ZERO)
- {
- for (i = 5; i <= p; i++)
- {
- if (X[i] == ZERO)
- continue;
- else
- {
- z[3] += ONE;
- break;
- }
- }
- }
- else
- z[3] += ONE;
- }
-
- c = (z[1] + R * (z[2] + R * z[3])) / a;
- }
-
- c *= X[0];
-
- for (i = 1; i < EX; i++)
- c *= RADIX;
- for (i = 1; i > EX; i--)
- c *= RADIXI;
-
- *y = c;
-#undef R
-}
-
-/* Convert a multiple precision number *X into a double precision
- number *Y, Denormal case (|x| < 2**(-1022))). */
-static void
-denorm (const mp_no *x, double *y, int p)
-{
- long i, k;
- long p2 = p;
- double c, u, z[5];
-
-#define R RADIXI
- if (EX < -44 || (EX == -44 && X[1] < TWO5))
- {
- *y = ZERO;
- return;
- }
-
- if (p2 == 1)
- {
- if (EX == -42)
- {
- z[1] = X[1] + TWO10;
- z[2] = ZERO;
- z[3] = ZERO;
- k = 3;
- }
- else if (EX == -43)
- {
- z[1] = TWO10;
- z[2] = X[1];
- z[3] = ZERO;
- k = 2;
- }
- else
- {
- z[1] = TWO10;
- z[2] = ZERO;
- z[3] = X[1];
- k = 1;
- }
- }
- else if (p2 == 2)
- {
- if (EX == -42)
- {
- z[1] = X[1] + TWO10;
- z[2] = X[2];
- z[3] = ZERO;
- k = 3;
- }
- else if (EX == -43)
- {
- z[1] = TWO10;
- z[2] = X[1];
- z[3] = X[2];
- k = 2;
- }
- else
- {
- z[1] = TWO10;
- z[2] = ZERO;
- z[3] = X[1];
- k = 1;
- }
- }
- else
- {
- if (EX == -42)
- {
- z[1] = X[1] + TWO10;
- z[2] = X[2];
- k = 3;
- }
- else if (EX == -43)
- {
- z[1] = TWO10;
- z[2] = X[1];
- k = 2;
- }
- else
- {
- z[1] = TWO10;
- z[2] = ZERO;
- k = 1;
- }
- z[3] = X[k];
- }
-
- u = (z[3] + TWO57) - TWO57;
- if (u > z[3])
- u -= TWO5;
-
- if (u == z[3])
- {
- for (i = k + 1; i <= p2; i++)
- {
- if (X[i] == ZERO)
- continue;
- else
- {
- z[3] += ONE;
- break;
- }
- }
- }
-
- c = X[0] * ((z[1] + R * (z[2] + R * z[3])) - TWO10);
-
- *y = c * TWOM1032;
-#undef R
-}
-
-/* Convert multiple precision number *X into double precision number *Y. The
- result is correctly rounded to the nearest/even. */
-void
-__mp_dbl (const mp_no *x, double *y, int p)
-{
- if (X[0] == ZERO)
- {
- *y = ZERO;
- return;
- }
-
- if (__glibc_likely (EX > -42 || (EX == -42 && X[1] >= TWO10)))
- norm (x, y, p);
- else
- denorm (x, y, p);
-}
-
-/* Get the multiple precision equivalent of X into *Y. If the precision is too
- small, the result is truncated. */
-void
-__dbl_mp (double x, mp_no *y, int p)
-{
- long i, n;
- long p2 = p;
- double u;
-
- /* Sign. */
- if (x == ZERO)
- {
- Y[0] = ZERO;
- return;
- }
- else if (x > ZERO)
- Y[0] = ONE;
- else
- {
- Y[0] = MONE;
- x = -x;
- }
-
- /* Exponent. */
- for (EY = ONE; x >= RADIX; EY += ONE)
- x *= RADIXI;
- for (; x < ONE; EY -= ONE)
- x *= RADIX;
-
- /* Digits. */
- n = MIN (p2, 4);
- for (i = 1; i <= n; i++)
- {
- u = (x + TWO52) - TWO52;
- if (u > x)
- u -= ONE;
- Y[i] = u;
- x -= u;
- x *= RADIX;
- }
- for (; i <= p2; i++)
- Y[i] = ZERO;
-}
-
-/* Add magnitudes of *X and *Y assuming that abs (*X) >= abs (*Y) > 0. The
- sign of the sum *Z is not changed. X and Y may overlap but not X and Z or
- Y and Z. No guard digit is used. The result equals the exact sum,
- truncated. */
-static void
-add_magnitudes (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- long i, j, k;
- long p2 = p;
- double zk;
-
- EZ = EX;
-
- i = p2;
- j = p2 + EY - EX;
- k = p2 + 1;
-
- if (__glibc_unlikely (j < 1))
- {
- __cpy (x, z, p);
- return;
- }
-
- zk = ZERO;
-
- for (; j > 0; i--, j--)
- {
- zk += X[i] + Y[j];
- if (zk >= RADIX)
- {
- Z[k--] = zk - RADIX;
- zk = ONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- for (; i > 0; i--)
- {
- zk += X[i];
- if (zk >= RADIX)
- {
- Z[k--] = zk - RADIX;
- zk = ONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- if (zk == ZERO)
- {
- for (i = 1; i <= p2; i++)
- Z[i] = Z[i + 1];
- }
- else
- {
- Z[1] = zk;
- EZ += ONE;
- }
-}
-
-/* Subtract the magnitudes of *X and *Y assuming that abs (*x) > abs (*y) > 0.
- The sign of the difference *Z is not changed. X and Y may overlap but not X
- and Z or Y and Z. One guard digit is used. The error is less than one
- ULP. */
-static void
-sub_magnitudes (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- long i, j, k;
- long p2 = p;
- double zk;
-
- EZ = EX;
- i = p2;
- j = p2 + EY - EX;
- k = p2;
-
- /* Y is too small compared to X, copy X over to the result. */
- if (__glibc_unlikely (j < 1))
- {
- __cpy (x, z, p);
- return;
- }
-
- /* The relevant least significant digit in Y is non-zero, so we factor it in
- to enhance accuracy. */
- if (j < p2 && Y[j + 1] > ZERO)
- {
- Z[k + 1] = RADIX - Y[j + 1];
- zk = MONE;
- }
- else
- zk = Z[k + 1] = ZERO;
-
- /* Subtract and borrow. */
- for (; j > 0; i--, j--)
- {
- zk += (X[i] - Y[j]);
- if (zk < ZERO)
- {
- Z[k--] = zk + RADIX;
- zk = MONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- /* We're done with digits from Y, so it's just digits in X. */
- for (; i > 0; i--)
- {
- zk += X[i];
- if (zk < ZERO)
- {
- Z[k--] = zk + RADIX;
- zk = MONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- /* Normalize. */
- for (i = 1; Z[i] == ZERO; i++);
- EZ = EZ - i + 1;
- for (k = 1; i <= p2 + 1;)
- Z[k++] = Z[i++];
- for (; k <= p2;)
- Z[k++] = ZERO;
-}
-
-/* Add *X and *Y and store the result in *Z. X and Y may overlap, but not X
- and Z or Y and Z. One guard digit is used. The error is less than one
- ULP. */
-void
-__add (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- int n;
-
- if (X[0] == ZERO)
- {
- __cpy (y, z, p);
- return;
- }
- else if (Y[0] == ZERO)
- {
- __cpy (x, z, p);
- return;
- }
-
- if (X[0] == Y[0])
- {
- if (__acr (x, y, p) > 0)
- {
- add_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else
- {
- add_magnitudes (y, x, z, p);
- Z[0] = Y[0];
- }
- }
- else
- {
- if ((n = __acr (x, y, p)) == 1)
- {
- sub_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else if (n == -1)
- {
- sub_magnitudes (y, x, z, p);
- Z[0] = Y[0];
- }
- else
- Z[0] = ZERO;
- }
-}
-
-/* Subtract *Y from *X and return the result in *Z. X and Y may overlap but
- not X and Z or Y and Z. One guard digit is used. The error is less than
- one ULP. */
-void
-__sub (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- int n;
-
- if (X[0] == ZERO)
- {
- __cpy (y, z, p);
- Z[0] = -Z[0];
- return;
- }
- else if (Y[0] == ZERO)
- {
- __cpy (x, z, p);
- return;
- }
-
- if (X[0] != Y[0])
- {
- if (__acr (x, y, p) > 0)
- {
- add_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else
- {
- add_magnitudes (y, x, z, p);
- Z[0] = -Y[0];
- }
- }
- else
- {
- if ((n = __acr (x, y, p)) == 1)
- {
- sub_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else if (n == -1)
- {
- sub_magnitudes (y, x, z, p);
- Z[0] = -Y[0];
- }
- else
- Z[0] = ZERO;
- }
-}
+#include <sysdeps/ieee754/dbl-64/mpa.c>
/* Multiply *X and *Y and store result in *Z. X and Y may overlap but not X
and Z or Y and Z. For P in [1, 2, 3], the exact result is truncated to P
@@ -781,57 +211,3 @@ __sqr (const mp_no *x, mp_no *y, int p)
EY--;
}
}
-
-/* Invert *X and store in *Y. Relative error bound:
- - For P = 2: 1.001 * R ^ (1 - P)
- - For P = 3: 1.063 * R ^ (1 - P)
- - For P > 3: 2.001 * R ^ (1 - P)
-
- *X = 0 is not permissible. */
-static void
-__inv (const mp_no *x, mp_no *y, int p)
-{
- long i;
- double t;
- mp_no z, w;
- static const int np1[] =
- { 0, 0, 0, 0, 1, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3,
- 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4
- };
-
- __cpy (x, &z, p);
- z.e = 0;
- __mp_dbl (&z, &t, p);
- t = ONE / t;
- __dbl_mp (t, y, p);
- EY -= EX;
-
- for (i = 0; i < np1[p]; i++)
- {
- __cpy (y, &w, p);
- __mul (x, &w, y, p);
- __sub (&mptwo, y, &z, p);
- __mul (&w, &z, y, p);
- }
-}
-
-/* Divide *X by *Y and store result in *Z. X and Y may overlap but not X and Z
- or Y and Z. Relative error bound:
- - For P = 2: 2.001 * R ^ (1 - P)
- - For P = 3: 2.063 * R ^ (1 - P)
- - For P > 3: 3.001 * R ^ (1 - P)
-
- *X = 0 is not permissible. */
-void
-__dvd (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- mp_no w;
-
- if (X[0] == ZERO)
- Z[0] = ZERO;
- else
- {
- __inv (y, &w, p);
- __mul (x, &w, z, p);
- }
-}
diff --git a/sysdeps/powerpc/powerpc64/power4/fpu/mpa.c b/sysdeps/powerpc/powerpc64/power4/fpu/mpa.c
index b22664772e..ef7ada749a 100644
--- a/sysdeps/powerpc/powerpc64/power4/fpu/mpa.c
+++ b/sysdeps/powerpc/powerpc64/power4/fpu/mpa.c
@@ -17,582 +17,12 @@
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, see <http://www.gnu.org/licenses/>.
*/
-/************************************************************************/
-/* MODULE_NAME: mpa.c */
-/* */
-/* FUNCTIONS: */
-/* mcr */
-/* acr */
-/* cpy */
-/* norm */
-/* denorm */
-/* mp_dbl */
-/* dbl_mp */
-/* add_magnitudes */
-/* sub_magnitudes */
-/* add */
-/* sub */
-/* mul */
-/* inv */
-/* dvd */
-/* */
-/* Arithmetic functions for multiple precision numbers. */
-/* Relative errors are bounded */
-/************************************************************************/
+/* Define __mul and __sqr and use the rest from generic code. */
+#define NO__MUL
+#define NO__SQR
-#include "endian.h"
-#include "mpa.h"
-#include <sys/param.h>
-
-const mp_no mpone = {1, {1.0, 1.0}};
-const mp_no mptwo = {1, {1.0, 2.0}};
-
-/* Compare mantissa of two multiple precision numbers regardless of the sign
- and exponent of the numbers. */
-static int
-mcr (const mp_no *x, const mp_no *y, int p)
-{
- long i;
- long p2 = p;
- for (i = 1; i <= p2; i++)
- {
- if (X[i] == Y[i])
- continue;
- else if (X[i] > Y[i])
- return 1;
- else
- return -1;
- }
- return 0;
-}
-
-/* Compare the absolute values of two multiple precision numbers. */
-int
-__acr (const mp_no *x, const mp_no *y, int p)
-{
- long i;
-
- if (X[0] == ZERO)
- {
- if (Y[0] == ZERO)
- i = 0;
- else
- i = -1;
- }
- else if (Y[0] == ZERO)
- i = 1;
- else
- {
- if (EX > EY)
- i = 1;
- else if (EX < EY)
- i = -1;
- else
- i = mcr (x, y, p);
- }
-
- return i;
-}
-
-/* Copy multiple precision number X into Y. They could be the same
- number. */
-void
-__cpy (const mp_no *x, mp_no *y, int p)
-{
- long i;
-
- EY = EX;
- for (i = 0; i <= p; i++)
- Y[i] = X[i];
-}
-
-/* Convert a multiple precision number *X into a double precision
- number *Y, normalized case (|x| >= 2**(-1022))). */
-static void
-norm (const mp_no *x, double *y, int p)
-{
-#define R RADIXI
- long i;
- double a, c, u, v, z[5];
- if (p < 5)
- {
- if (p == 1)
- c = X[1];
- else if (p == 2)
- c = X[1] + R * X[2];
- else if (p == 3)
- c = X[1] + R * (X[2] + R * X[3]);
- else if (p == 4)
- c = (X[1] + R * X[2]) + R * R * (X[3] + R * X[4]);
- }
- else
- {
- for (a = ONE, z[1] = X[1]; z[1] < TWO23;)
- {
- a *= TWO;
- z[1] *= TWO;
- }
-
- for (i = 2; i < 5; i++)
- {
- z[i] = X[i] * a;
- u = (z[i] + CUTTER) - CUTTER;
- if (u > z[i])
- u -= RADIX;
- z[i] -= u;
- z[i - 1] += u * RADIXI;
- }
-
- u = (z[3] + TWO71) - TWO71;
- if (u > z[3])
- u -= TWO19;
- v = z[3] - u;
-
- if (v == TWO18)
- {
- if (z[4] == ZERO)
- {
- for (i = 5; i <= p; i++)
- {
- if (X[i] == ZERO)
- continue;
- else
- {
- z[3] += ONE;
- break;
- }
- }
- }
- else
- z[3] += ONE;
- }
-
- c = (z[1] + R * (z[2] + R * z[3])) / a;
- }
-
- c *= X[0];
-
- for (i = 1; i < EX; i++)
- c *= RADIX;
- for (i = 1; i > EX; i--)
- c *= RADIXI;
-
- *y = c;
-#undef R
-}
-
-/* Convert a multiple precision number *X into a double precision
- number *Y, Denormal case (|x| < 2**(-1022))). */
-static void
-denorm (const mp_no *x, double *y, int p)
-{
- long i, k;
- long p2 = p;
- double c, u, z[5];
-
-#define R RADIXI
- if (EX < -44 || (EX == -44 && X[1] < TWO5))
- {
- *y = ZERO;
- return;
- }
-
- if (p2 == 1)
- {
- if (EX == -42)
- {
- z[1] = X[1] + TWO10;
- z[2] = ZERO;
- z[3] = ZERO;
- k = 3;
- }
- else if (EX == -43)
- {
- z[1] = TWO10;
- z[2] = X[1];
- z[3] = ZERO;
- k = 2;
- }
- else
- {
- z[1] = TWO10;
- z[2] = ZERO;
- z[3] = X[1];
- k = 1;
- }
- }
- else if (p2 == 2)
- {
- if (EX == -42)
- {
- z[1] = X[1] + TWO10;
- z[2] = X[2];
- z[3] = ZERO;
- k = 3;
- }
- else if (EX == -43)
- {
- z[1] = TWO10;
- z[2] = X[1];
- z[3] = X[2];
- k = 2;
- }
- else
- {
- z[1] = TWO10;
- z[2] = ZERO;
- z[3] = X[1];
- k = 1;
- }
- }
- else
- {
- if (EX == -42)
- {
- z[1] = X[1] + TWO10;
- z[2] = X[2];
- k = 3;
- }
- else if (EX == -43)
- {
- z[1] = TWO10;
- z[2] = X[1];
- k = 2;
- }
- else
- {
- z[1] = TWO10;
- z[2] = ZERO;
- k = 1;
- }
- z[3] = X[k];
- }
-
- u = (z[3] + TWO57) - TWO57;
- if (u > z[3])
- u -= TWO5;
-
- if (u == z[3])
- {
- for (i = k + 1; i <= p2; i++)
- {
- if (X[i] == ZERO)
- continue;
- else
- {
- z[3] += ONE;
- break;
- }
- }
- }
-
- c = X[0] * ((z[1] + R * (z[2] + R * z[3])) - TWO10);
-
- *y = c * TWOM1032;
-#undef R
-}
-
-/* Convert multiple precision number *X into double precision number *Y. The
- result is correctly rounded to the nearest/even. */
-void
-__mp_dbl (const mp_no *x, double *y, int p)
-{
- if (X[0] == ZERO)
- {
- *y = ZERO;
- return;
- }
-
- if (__glibc_likely (EX > -42 || (EX == -42 && X[1] >= TWO10)))
- norm (x, y, p);
- else
- denorm (x, y, p);
-}
-
-/* Get the multiple precision equivalent of X into *Y. If the precision is too
- small, the result is truncated. */
-void
-__dbl_mp (double x, mp_no *y, int p)
-{
- long i, n;
- long p2 = p;
- double u;
-
- /* Sign. */
- if (x == ZERO)
- {
- Y[0] = ZERO;
- return;
- }
- else if (x > ZERO)
- Y[0] = ONE;
- else
- {
- Y[0] = MONE;
- x = -x;
- }
-
- /* Exponent. */
- for (EY = ONE; x >= RADIX; EY += ONE)
- x *= RADIXI;
- for (; x < ONE; EY -= ONE)
- x *= RADIX;
-
- /* Digits. */
- n = MIN (p2, 4);
- for (i = 1; i <= n; i++)
- {
- u = (x + TWO52) - TWO52;
- if (u > x)
- u -= ONE;
- Y[i] = u;
- x -= u;
- x *= RADIX;
- }
- for (; i <= p2; i++)
- Y[i] = ZERO;
-}
-
-/* Add magnitudes of *X and *Y assuming that abs (*X) >= abs (*Y) > 0. The
- sign of the sum *Z is not changed. X and Y may overlap but not X and Z or
- Y and Z. No guard digit is used. The result equals the exact sum,
- truncated. */
-static void
-add_magnitudes (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- long i, j, k;
- long p2 = p;
- double zk;
-
- EZ = EX;
-
- i = p2;
- j = p2 + EY - EX;
- k = p2 + 1;
-
- if (__glibc_unlikely (j < 1))
- {
- __cpy (x, z, p);
- return;
- }
-
- zk = ZERO;
-
- for (; j > 0; i--, j--)
- {
- zk += X[i] + Y[j];
- if (zk >= RADIX)
- {
- Z[k--] = zk - RADIX;
- zk = ONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- for (; i > 0; i--)
- {
- zk += X[i];
- if (zk >= RADIX)
- {
- Z[k--] = zk - RADIX;
- zk = ONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- if (zk == ZERO)
- {
- for (i = 1; i <= p2; i++)
- Z[i] = Z[i + 1];
- }
- else
- {
- Z[1] = zk;
- EZ += ONE;
- }
-}
-
-/* Subtract the magnitudes of *X and *Y assuming that abs (*x) > abs (*y) > 0.
- The sign of the difference *Z is not changed. X and Y may overlap but not X
- and Z or Y and Z. One guard digit is used. The error is less than one
- ULP. */
-static void
-sub_magnitudes (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- long i, j, k;
- long p2 = p;
- double zk;
-
- EZ = EX;
- i = p2;
- j = p2 + EY - EX;
- k = p2;
-
- /* Y is too small compared to X, copy X over to the result. */
- if (__glibc_unlikely (j < 1))
- {
- __cpy (x, z, p);
- return;
- }
-
- /* The relevant least significant digit in Y is non-zero, so we factor it in
- to enhance accuracy. */
- if (j < p2 && Y[j + 1] > ZERO)
- {
- Z[k + 1] = RADIX - Y[j + 1];
- zk = MONE;
- }
- else
- zk = Z[k + 1] = ZERO;
-
- /* Subtract and borrow. */
- for (; j > 0; i--, j--)
- {
- zk += (X[i] - Y[j]);
- if (zk < ZERO)
- {
- Z[k--] = zk + RADIX;
- zk = MONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- /* We're done with digits from Y, so it's just digits in X. */
- for (; i > 0; i--)
- {
- zk += X[i];
- if (zk < ZERO)
- {
- Z[k--] = zk + RADIX;
- zk = MONE;
- }
- else
- {
- Z[k--] = zk;
- zk = ZERO;
- }
- }
-
- /* Normalize. */
- for (i = 1; Z[i] == ZERO; i++);
- EZ = EZ - i + 1;
- for (k = 1; i <= p2 + 1;)
- Z[k++] = Z[i++];
- for (; k <= p2;)
- Z[k++] = ZERO;
-}
-
-/* Add *X and *Y and store the result in *Z. X and Y may overlap, but not X
- and Z or Y and Z. One guard digit is used. The error is less than one
- ULP. */
-void
-__add (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- int n;
-
- if (X[0] == ZERO)
- {
- __cpy (y, z, p);
- return;
- }
- else if (Y[0] == ZERO)
- {
- __cpy (x, z, p);
- return;
- }
-
- if (X[0] == Y[0])
- {
- if (__acr (x, y, p) > 0)
- {
- add_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else
- {
- add_magnitudes (y, x, z, p);
- Z[0] = Y[0];
- }
- }
- else
- {
- if ((n = __acr (x, y, p)) == 1)
- {
- sub_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else if (n == -1)
- {
- sub_magnitudes (y, x, z, p);
- Z[0] = Y[0];
- }
- else
- Z[0] = ZERO;
- }
-}
-
-/* Subtract *Y from *X and return the result in *Z. X and Y may overlap but
- not X and Z or Y and Z. One guard digit is used. The error is less than
- one ULP. */
-void
-__sub (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- int n;
-
- if (X[0] == ZERO)
- {
- __cpy (y, z, p);
- Z[0] = -Z[0];
- return;
- }
- else if (Y[0] == ZERO)
- {
- __cpy (x, z, p);
- return;
- }
-
- if (X[0] != Y[0])
- {
- if (__acr (x, y, p) > 0)
- {
- add_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else
- {
- add_magnitudes (y, x, z, p);
- Z[0] = -Y[0];
- }
- }
- else
- {
- if ((n = __acr (x, y, p)) == 1)
- {
- sub_magnitudes (x, y, z, p);
- Z[0] = X[0];
- }
- else if (n == -1)
- {
- sub_magnitudes (y, x, z, p);
- Z[0] = -Y[0];
- }
- else
- Z[0] = ZERO;
- }
-}
+#include <sysdeps/ieee754/dbl-64/mpa.c>
/* Multiply *X and *Y and store result in *Z. X and Y may overlap but not X
and Z or Y and Z. For P in [1, 2, 3], the exact result is truncated to P
@@ -781,57 +211,3 @@ __sqr (const mp_no *x, mp_no *y, int p)
EY--;
}
}
-
-/* Invert *X and store in *Y. Relative error bound:
- - For P = 2: 1.001 * R ^ (1 - P)
- - For P = 3: 1.063 * R ^ (1 - P)
- - For P > 3: 2.001 * R ^ (1 - P)
-
- *X = 0 is not permissible. */
-static void
-__inv (const mp_no *x, mp_no *y, int p)
-{
- long i;
- double t;
- mp_no z, w;
- static const int np1[] =
- { 0, 0, 0, 0, 1, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3,
- 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4
- };
-
- __cpy (x, &z, p);
- z.e = 0;
- __mp_dbl (&z, &t, p);
- t = ONE / t;
- __dbl_mp (t, y, p);
- EY -= EX;
-
- for (i = 0; i < np1[p]; i++)
- {
- __cpy (y, &w, p);
- __mul (x, &w, y, p);
- __sub (&mptwo, y, &z, p);
- __mul (&w, &z, y, p);
- }
-}
-
-/* Divide *X by *Y and store result in *Z. X and Y may overlap but not X and Z
- or Y and Z. Relative error bound:
- - For P = 2: 2.001 * R ^ (1 - P)
- - For P = 3: 2.063 * R ^ (1 - P)
- - For P > 3: 3.001 * R ^ (1 - P)
-
- *X = 0 is not permissible. */
-void
-__dvd (const mp_no *x, const mp_no *y, mp_no *z, int p)
-{
- mp_no w;
-
- if (X[0] == ZERO)
- Z[0] = ZERO;
- else
- {
- __inv (y, &w, p);
- __mul (x, &w, z, p);
- }
-}