1
0
Fork 0
mirror of https://github.com/cryb-to/cryb-to.git synced 2024-12-20 19:41:08 +00:00
cryb-to/lib/rsaref/digit.c
Dag-Erling Smørgrav ae99587ba4 initial code drop
2014-07-04 11:18:53 +00:00

107 lines
2.5 KiB
C

/* DIGIT.C - digit arithmetic routines
*/
/* Copyright (C) RSA Laboratories, a division of RSA Data Security,
Inc., created 1991. All rights reserved.
*/
#include "global.h"
#include "rsaref.h"
#include "nn.h"
#include "digit.h"
/* Computes a = b * c, where b and c are digits.
Lengths: a[2].
*/
void NN_DigitMult (a, b, c)
NN_DIGIT a[2], b, c;
{
NN_DIGIT t, u;
NN_HALF_DIGIT bHigh, bLow, cHigh, cLow;
bHigh = (NN_HALF_DIGIT)HIGH_HALF (b);
bLow = (NN_HALF_DIGIT)LOW_HALF (b);
cHigh = (NN_HALF_DIGIT)HIGH_HALF (c);
cLow = (NN_HALF_DIGIT)LOW_HALF (c);
a[0] = (NN_DIGIT)bLow * (NN_DIGIT)cLow;
t = (NN_DIGIT)bLow * (NN_DIGIT)cHigh;
u = (NN_DIGIT)bHigh * (NN_DIGIT)cLow;
a[1] = (NN_DIGIT)bHigh * (NN_DIGIT)cHigh;
if ((t += u) < u)
a[1] += TO_HIGH_HALF (1);
u = TO_HIGH_HALF (t);
if ((a[0] += u) < u)
a[1]++;
a[1] += HIGH_HALF (t);
}
/* Sets a = b / c, where a and c are digits.
Lengths: b[2].
Assumes b[1] < c and HIGH_HALF (c) > 0. For efficiency, c should be
normalized.
*/
void NN_DigitDiv (a, b, c)
NN_DIGIT *a, b[2], c;
{
NN_DIGIT t[2], u, v;
NN_HALF_DIGIT aHigh, aLow, cHigh, cLow;
cHigh = (NN_HALF_DIGIT)HIGH_HALF (c);
cLow = (NN_HALF_DIGIT)LOW_HALF (c);
t[0] = b[0];
t[1] = b[1];
/* Underestimate high half of quotient and subtract.
*/
if (cHigh == MAX_NN_HALF_DIGIT)
aHigh = (NN_HALF_DIGIT)HIGH_HALF (t[1]);
else
aHigh = (NN_HALF_DIGIT)(t[1] / (cHigh + 1));
u = (NN_DIGIT)aHigh * (NN_DIGIT)cLow;
v = (NN_DIGIT)aHigh * (NN_DIGIT)cHigh;
if ((t[0] -= TO_HIGH_HALF (u)) > (MAX_NN_DIGIT - TO_HIGH_HALF (u)))
t[1]--;
t[1] -= HIGH_HALF (u);
t[1] -= v;
/* Correct estimate.
*/
while ((t[1] > cHigh) ||
((t[1] == cHigh) && (t[0] >= TO_HIGH_HALF (cLow)))) {
if ((t[0] -= TO_HIGH_HALF (cLow)) > MAX_NN_DIGIT - TO_HIGH_HALF (cLow))
t[1]--;
t[1] -= cHigh;
aHigh++;
}
/* Underestimate low half of quotient and subtract.
*/
if (cHigh == MAX_NN_HALF_DIGIT)
aLow = (NN_HALF_DIGIT)LOW_HALF (t[1]);
else
aLow =
(NN_HALF_DIGIT)((TO_HIGH_HALF (t[1]) + HIGH_HALF (t[0])) / (cHigh + 1));
u = (NN_DIGIT)aLow * (NN_DIGIT)cLow;
v = (NN_DIGIT)aLow * (NN_DIGIT)cHigh;
if ((t[0] -= u) > (MAX_NN_DIGIT - u))
t[1]--;
if ((t[0] -= TO_HIGH_HALF (v)) > (MAX_NN_DIGIT - TO_HIGH_HALF (v)))
t[1]--;
t[1] -= HIGH_HALF (v);
/* Correct estimate.
*/
while ((t[1] > 0) || ((t[1] == 0) && t[0] >= c)) {
if ((t[0] -= c) > (MAX_NN_DIGIT - c))
t[1]--;
aLow++;
}
*a = TO_HIGH_HALF (aHigh) + aLow;
}