14a5d661aSToomas Soome /*-
24a5d661aSToomas Soome * Copyright (c) 1992, 1993
34a5d661aSToomas Soome * The Regents of the University of California. All rights reserved.
44a5d661aSToomas Soome *
54a5d661aSToomas Soome * This software was developed by the Computer Systems Engineering group
64a5d661aSToomas Soome * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
74a5d661aSToomas Soome * contributed to Berkeley.
84a5d661aSToomas Soome *
94a5d661aSToomas Soome * Redistribution and use in source and binary forms, with or without
104a5d661aSToomas Soome * modification, are permitted provided that the following conditions
114a5d661aSToomas Soome * are met:
124a5d661aSToomas Soome * 1. Redistributions of source code must retain the above copyright
134a5d661aSToomas Soome * notice, this list of conditions and the following disclaimer.
144a5d661aSToomas Soome * 2. Redistributions in binary form must reproduce the above copyright
154a5d661aSToomas Soome * notice, this list of conditions and the following disclaimer in the
164a5d661aSToomas Soome * documentation and/or other materials provided with the distribution.
174a5d661aSToomas Soome * 4. Neither the name of the University nor the names of its contributors
184a5d661aSToomas Soome * may be used to endorse or promote products derived from this software
194a5d661aSToomas Soome * without specific prior written permission.
204a5d661aSToomas Soome *
214a5d661aSToomas Soome * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
224a5d661aSToomas Soome * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
234a5d661aSToomas Soome * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
244a5d661aSToomas Soome * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
254a5d661aSToomas Soome * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
264a5d661aSToomas Soome * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
274a5d661aSToomas Soome * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
284a5d661aSToomas Soome * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
294a5d661aSToomas Soome * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
304a5d661aSToomas Soome * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
314a5d661aSToomas Soome * SUCH DAMAGE.
324a5d661aSToomas Soome *
334a5d661aSToomas Soome * From: Id: qdivrem.c,v 1.7 1997/11/07 09:20:40 phk Exp
344a5d661aSToomas Soome */
354a5d661aSToomas Soome
364a5d661aSToomas Soome #include <sys/cdefs.h>
37331f34b7SToomas Soome #include <sys/stddef.h>
384a5d661aSToomas Soome
394a5d661aSToomas Soome /*
404a5d661aSToomas Soome * Multiprecision divide. This algorithm is from Knuth vol. 2 (2nd ed),
414a5d661aSToomas Soome * section 4.3.1, pp. 257--259.
424a5d661aSToomas Soome */
434a5d661aSToomas Soome
444a5d661aSToomas Soome #include "quad.h"
454a5d661aSToomas Soome
464a5d661aSToomas Soome #define B (1 << HALF_BITS) /* digit base */
474a5d661aSToomas Soome
484a5d661aSToomas Soome /* Combine two `digits' to make a single two-digit number. */
494a5d661aSToomas Soome #define COMBINE(a, b) (((u_int)(a) << HALF_BITS) | (b))
504a5d661aSToomas Soome
514a5d661aSToomas Soome _Static_assert(sizeof(int) / 2 == sizeof(short),
524a5d661aSToomas Soome "Bitwise functions in libstand are broken on this architecture\n");
534a5d661aSToomas Soome
544a5d661aSToomas Soome /* select a type for digits in base B: use unsigned short if they fit */
554a5d661aSToomas Soome typedef unsigned short digit;
564a5d661aSToomas Soome
574a5d661aSToomas Soome /*
584a5d661aSToomas Soome * Shift p[0]..p[len] left `sh' bits, ignoring any bits that
594a5d661aSToomas Soome * `fall out' the left (there never will be any such anyway).
604a5d661aSToomas Soome * We may assume len >= 0. NOTE THAT THIS WRITES len+1 DIGITS.
614a5d661aSToomas Soome */
624a5d661aSToomas Soome static void
shl(digit * p,int len,int sh)634a5d661aSToomas Soome shl(digit *p, int len, int sh)
644a5d661aSToomas Soome {
654a5d661aSToomas Soome int i;
664a5d661aSToomas Soome
674a5d661aSToomas Soome for (i = 0; i < len; i++)
684a5d661aSToomas Soome p[i] = LHALF(p[i] << sh) | (p[i + 1] >> (HALF_BITS - sh));
694a5d661aSToomas Soome p[i] = LHALF(p[i] << sh);
704a5d661aSToomas Soome }
714a5d661aSToomas Soome
724a5d661aSToomas Soome /*
73331f34b7SToomas Soome * __udivmoddi4(u, v, rem) returns u/v and, optionally, sets *rem to u%v.
744a5d661aSToomas Soome *
754a5d661aSToomas Soome * We do this in base 2-sup-HALF_BITS, so that all intermediate products
764a5d661aSToomas Soome * fit within u_int. As a consequence, the maximum length dividend and
774a5d661aSToomas Soome * divisor are 4 `digits' in this base (they are shorter if they have
784a5d661aSToomas Soome * leading zeros).
794a5d661aSToomas Soome */
804a5d661aSToomas Soome u_quad_t
__udivmoddi4(u_quad_t uq,u_quad_t vq,u_quad_t * arq)81331f34b7SToomas Soome __udivmoddi4(u_quad_t uq, u_quad_t vq, u_quad_t *arq)
824a5d661aSToomas Soome {
834a5d661aSToomas Soome union uu tmp;
844a5d661aSToomas Soome digit *u, *v, *q;
854a5d661aSToomas Soome digit v1, v2;
864a5d661aSToomas Soome u_int qhat, rhat, t;
874a5d661aSToomas Soome int m, n, d, j, i;
884a5d661aSToomas Soome digit uspace[5], vspace[5], qspace[5];
894a5d661aSToomas Soome
904a5d661aSToomas Soome /*
914a5d661aSToomas Soome * Take care of special cases: divide by zero, and u < v.
924a5d661aSToomas Soome */
934a5d661aSToomas Soome if (vq == 0) {
944a5d661aSToomas Soome /* divide by zero. */
954a5d661aSToomas Soome static volatile const unsigned int zero = 0;
964a5d661aSToomas Soome
974a5d661aSToomas Soome tmp.ul[H] = tmp.ul[L] = 1 / zero;
984a5d661aSToomas Soome if (arq)
994a5d661aSToomas Soome *arq = uq;
1004a5d661aSToomas Soome return (tmp.q);
1014a5d661aSToomas Soome }
1024a5d661aSToomas Soome if (uq < vq) {
1034a5d661aSToomas Soome if (arq)
1044a5d661aSToomas Soome *arq = uq;
1054a5d661aSToomas Soome return (0);
1064a5d661aSToomas Soome }
1074a5d661aSToomas Soome u = &uspace[0];
1084a5d661aSToomas Soome v = &vspace[0];
1094a5d661aSToomas Soome q = &qspace[0];
1104a5d661aSToomas Soome
1114a5d661aSToomas Soome /*
1124a5d661aSToomas Soome * Break dividend and divisor into digits in base B, then
1134a5d661aSToomas Soome * count leading zeros to determine m and n. When done, we
1144a5d661aSToomas Soome * will have:
1154a5d661aSToomas Soome * u = (u[1]u[2]...u[m+n]) sub B
1164a5d661aSToomas Soome * v = (v[1]v[2]...v[n]) sub B
1174a5d661aSToomas Soome * v[1] != 0
1184a5d661aSToomas Soome * 1 < n <= 4 (if n = 1, we use a different division algorithm)
1194a5d661aSToomas Soome * m >= 0 (otherwise u < v, which we already checked)
1204a5d661aSToomas Soome * m + n = 4
1214a5d661aSToomas Soome * and thus
1224a5d661aSToomas Soome * m = 4 - n <= 2
1234a5d661aSToomas Soome */
1244a5d661aSToomas Soome tmp.uq = uq;
1254a5d661aSToomas Soome u[0] = 0;
1264a5d661aSToomas Soome u[1] = HHALF(tmp.ul[H]);
1274a5d661aSToomas Soome u[2] = LHALF(tmp.ul[H]);
1284a5d661aSToomas Soome u[3] = HHALF(tmp.ul[L]);
1294a5d661aSToomas Soome u[4] = LHALF(tmp.ul[L]);
1304a5d661aSToomas Soome tmp.uq = vq;
1314a5d661aSToomas Soome v[1] = HHALF(tmp.ul[H]);
1324a5d661aSToomas Soome v[2] = LHALF(tmp.ul[H]);
1334a5d661aSToomas Soome v[3] = HHALF(tmp.ul[L]);
1344a5d661aSToomas Soome v[4] = LHALF(tmp.ul[L]);
1354a5d661aSToomas Soome for (n = 4; v[1] == 0; v++) {
1364a5d661aSToomas Soome if (--n == 1) {
1374a5d661aSToomas Soome u_int rbj; /* r*B+u[j] (not root boy jim) */
1384a5d661aSToomas Soome digit q1, q2, q3, q4;
1394a5d661aSToomas Soome
1404a5d661aSToomas Soome /*
1414a5d661aSToomas Soome * Change of plan, per exercise 16.
1424a5d661aSToomas Soome * r = 0;
1434a5d661aSToomas Soome * for j = 1..4:
1444a5d661aSToomas Soome * q[j] = floor((r*B + u[j]) / v),
1454a5d661aSToomas Soome * r = (r*B + u[j]) % v;
1464a5d661aSToomas Soome * We unroll this completely here.
1474a5d661aSToomas Soome */
1484a5d661aSToomas Soome t = v[2]; /* nonzero, by definition */
1494a5d661aSToomas Soome q1 = u[1] / t;
1504a5d661aSToomas Soome rbj = COMBINE(u[1] % t, u[2]);
1514a5d661aSToomas Soome q2 = rbj / t;
1524a5d661aSToomas Soome rbj = COMBINE(rbj % t, u[3]);
1534a5d661aSToomas Soome q3 = rbj / t;
1544a5d661aSToomas Soome rbj = COMBINE(rbj % t, u[4]);
1554a5d661aSToomas Soome q4 = rbj / t;
1564a5d661aSToomas Soome if (arq)
1574a5d661aSToomas Soome *arq = rbj % t;
1584a5d661aSToomas Soome tmp.ul[H] = COMBINE(q1, q2);
1594a5d661aSToomas Soome tmp.ul[L] = COMBINE(q3, q4);
1604a5d661aSToomas Soome return (tmp.q);
1614a5d661aSToomas Soome }
1624a5d661aSToomas Soome }
1634a5d661aSToomas Soome
1644a5d661aSToomas Soome /*
1654a5d661aSToomas Soome * By adjusting q once we determine m, we can guarantee that
1664a5d661aSToomas Soome * there is a complete four-digit quotient at &qspace[1] when
1674a5d661aSToomas Soome * we finally stop.
1684a5d661aSToomas Soome */
1694a5d661aSToomas Soome for (m = 4 - n; u[1] == 0; u++)
1704a5d661aSToomas Soome m--;
1714a5d661aSToomas Soome for (i = 4 - m; --i >= 0;)
1724a5d661aSToomas Soome q[i] = 0;
1734a5d661aSToomas Soome q += 4 - m;
1744a5d661aSToomas Soome
1754a5d661aSToomas Soome /*
1764a5d661aSToomas Soome * Here we run Program D, translated from MIX to C and acquiring
1774a5d661aSToomas Soome * a few minor changes.
1784a5d661aSToomas Soome *
1794a5d661aSToomas Soome * D1: choose multiplier 1 << d to ensure v[1] >= B/2.
1804a5d661aSToomas Soome */
1814a5d661aSToomas Soome d = 0;
1824a5d661aSToomas Soome for (t = v[1]; t < B / 2; t <<= 1)
1834a5d661aSToomas Soome d++;
1844a5d661aSToomas Soome if (d > 0) {
1854a5d661aSToomas Soome shl(&u[0], m + n, d); /* u <<= d */
1864a5d661aSToomas Soome shl(&v[1], n - 1, d); /* v <<= d */
1874a5d661aSToomas Soome }
1884a5d661aSToomas Soome /*
1894a5d661aSToomas Soome * D2: j = 0.
1904a5d661aSToomas Soome */
1914a5d661aSToomas Soome j = 0;
1924a5d661aSToomas Soome v1 = v[1]; /* for D3 -- note that v[1..n] are constant */
1934a5d661aSToomas Soome v2 = v[2]; /* for D3 */
1944a5d661aSToomas Soome do {
1954a5d661aSToomas Soome digit uj0, uj1, uj2;
1964a5d661aSToomas Soome
1974a5d661aSToomas Soome /*
1984a5d661aSToomas Soome * D3: Calculate qhat (\^q, in TeX notation).
1994a5d661aSToomas Soome * Let qhat = min((u[j]*B + u[j+1])/v[1], B-1), and
2004a5d661aSToomas Soome * let rhat = (u[j]*B + u[j+1]) mod v[1].
2014a5d661aSToomas Soome * While rhat < B and v[2]*qhat > rhat*B+u[j+2],
2024a5d661aSToomas Soome * decrement qhat and increase rhat correspondingly.
2034a5d661aSToomas Soome * Note that if rhat >= B, v[2]*qhat < rhat*B.
2044a5d661aSToomas Soome */
2054a5d661aSToomas Soome uj0 = u[j + 0]; /* for D3 only -- note that u[j+...] change */
2064a5d661aSToomas Soome uj1 = u[j + 1]; /* for D3 only */
2074a5d661aSToomas Soome uj2 = u[j + 2]; /* for D3 only */
2084a5d661aSToomas Soome if (uj0 == v1) {
2094a5d661aSToomas Soome qhat = B;
2104a5d661aSToomas Soome rhat = uj1;
2114a5d661aSToomas Soome goto qhat_too_big;
2124a5d661aSToomas Soome } else {
2134a5d661aSToomas Soome u_int nn = COMBINE(uj0, uj1);
2144a5d661aSToomas Soome qhat = nn / v1;
2154a5d661aSToomas Soome rhat = nn % v1;
2164a5d661aSToomas Soome }
2174a5d661aSToomas Soome while (v2 * qhat > COMBINE(rhat, uj2)) {
2184a5d661aSToomas Soome qhat_too_big:
2194a5d661aSToomas Soome qhat--;
2204a5d661aSToomas Soome if ((rhat += v1) >= B)
2214a5d661aSToomas Soome break;
2224a5d661aSToomas Soome }
2234a5d661aSToomas Soome /*
2244a5d661aSToomas Soome * D4: Multiply and subtract.
2254a5d661aSToomas Soome * The variable `t' holds any borrows across the loop.
2264a5d661aSToomas Soome * We split this up so that we do not require v[0] = 0,
2274a5d661aSToomas Soome * and to eliminate a final special case.
2284a5d661aSToomas Soome */
2294a5d661aSToomas Soome for (t = 0, i = n; i > 0; i--) {
2304a5d661aSToomas Soome t = u[i + j] - v[i] * qhat - t;
2314a5d661aSToomas Soome u[i + j] = LHALF(t);
2324a5d661aSToomas Soome t = (B - HHALF(t)) & (B - 1);
2334a5d661aSToomas Soome }
2344a5d661aSToomas Soome t = u[j] - t;
2354a5d661aSToomas Soome u[j] = LHALF(t);
2364a5d661aSToomas Soome /*
2374a5d661aSToomas Soome * D5: test remainder.
2384a5d661aSToomas Soome * There is a borrow if and only if HHALF(t) is nonzero;
2394a5d661aSToomas Soome * in that (rare) case, qhat was too large (by exactly 1).
2404a5d661aSToomas Soome * Fix it by adding v[1..n] to u[j..j+n].
2414a5d661aSToomas Soome */
2424a5d661aSToomas Soome if (HHALF(t)) {
2434a5d661aSToomas Soome qhat--;
2444a5d661aSToomas Soome for (t = 0, i = n; i > 0; i--) { /* D6: add back. */
2454a5d661aSToomas Soome t += u[i + j] + v[i];
2464a5d661aSToomas Soome u[i + j] = LHALF(t);
2474a5d661aSToomas Soome t = HHALF(t);
2484a5d661aSToomas Soome }
2494a5d661aSToomas Soome u[j] = LHALF(u[j] + t);
2504a5d661aSToomas Soome }
2514a5d661aSToomas Soome q[j] = qhat;
2524a5d661aSToomas Soome } while (++j <= m); /* D7: loop on j. */
2534a5d661aSToomas Soome
2544a5d661aSToomas Soome /*
2554a5d661aSToomas Soome * If caller wants the remainder, we have to calculate it as
2564a5d661aSToomas Soome * u[m..m+n] >> d (this is at most n digits and thus fits in
2574a5d661aSToomas Soome * u[m+1..m+n], but we may need more source digits).
2584a5d661aSToomas Soome */
2594a5d661aSToomas Soome if (arq) {
2604a5d661aSToomas Soome if (d) {
2614a5d661aSToomas Soome for (i = m + n; i > m; --i)
2624a5d661aSToomas Soome u[i] = (u[i] >> d) |
2634a5d661aSToomas Soome LHALF(u[i - 1] << (HALF_BITS - d));
2644a5d661aSToomas Soome u[i] = 0;
2654a5d661aSToomas Soome }
2664a5d661aSToomas Soome tmp.ul[H] = COMBINE(uspace[1], uspace[2]);
2674a5d661aSToomas Soome tmp.ul[L] = COMBINE(uspace[3], uspace[4]);
2684a5d661aSToomas Soome *arq = tmp.q;
2694a5d661aSToomas Soome }
2704a5d661aSToomas Soome
2714a5d661aSToomas Soome tmp.ul[H] = COMBINE(qspace[1], qspace[2]);
2724a5d661aSToomas Soome tmp.ul[L] = COMBINE(qspace[3], qspace[4]);
2734a5d661aSToomas Soome return (tmp.q);
2744a5d661aSToomas Soome }
2754a5d661aSToomas Soome
2764a5d661aSToomas Soome /*
2774a5d661aSToomas Soome * Divide two unsigned quads.
2784a5d661aSToomas Soome */
2794a5d661aSToomas Soome
2804a5d661aSToomas Soome u_quad_t
__udivdi3(u_quad_t a,u_quad_t b)281331f34b7SToomas Soome __udivdi3(u_quad_t a, u_quad_t b)
2824a5d661aSToomas Soome {
2834a5d661aSToomas Soome
284331f34b7SToomas Soome return (__udivmoddi4(a, b, NULL));
2854a5d661aSToomas Soome }
2864a5d661aSToomas Soome
2874a5d661aSToomas Soome /*
2884a5d661aSToomas Soome * Return remainder after dividing two unsigned quads.
2894a5d661aSToomas Soome */
2904a5d661aSToomas Soome u_quad_t
__umoddi3(u_quad_t a,u_quad_t b)291331f34b7SToomas Soome __umoddi3(u_quad_t a, u_quad_t b)
2924a5d661aSToomas Soome {
2934a5d661aSToomas Soome u_quad_t r;
2944a5d661aSToomas Soome
295331f34b7SToomas Soome (void)__udivmoddi4(a, b, &r);
2964a5d661aSToomas Soome return (r);
2974a5d661aSToomas Soome }
2984a5d661aSToomas Soome
2994a5d661aSToomas Soome /*
3004a5d661aSToomas Soome * Divide two signed quads.
3014a5d661aSToomas Soome * ??? if -1/2 should produce -1 on this machine, this code is wrong
3024a5d661aSToomas Soome */
3034a5d661aSToomas Soome quad_t
__divdi3(quad_t a,quad_t b)304331f34b7SToomas Soome __divdi3(quad_t a, quad_t b)
3054a5d661aSToomas Soome {
3064a5d661aSToomas Soome u_quad_t ua, ub, uq;
3074a5d661aSToomas Soome int neg;
3084a5d661aSToomas Soome
3094a5d661aSToomas Soome if (a < 0)
3104a5d661aSToomas Soome ua = -(u_quad_t)a, neg = 1;
3114a5d661aSToomas Soome else
3124a5d661aSToomas Soome ua = a, neg = 0;
3134a5d661aSToomas Soome if (b < 0)
3144a5d661aSToomas Soome ub = -(u_quad_t)b, neg ^= 1;
3154a5d661aSToomas Soome else
3164a5d661aSToomas Soome ub = b;
317331f34b7SToomas Soome uq = __udivmoddi4(ua, ub, NULL);
3184a5d661aSToomas Soome return (neg ? -uq : uq);
3194a5d661aSToomas Soome }
3204a5d661aSToomas Soome
3214a5d661aSToomas Soome /*
3224a5d661aSToomas Soome * Return remainder after dividing two signed quads.
3234a5d661aSToomas Soome *
3244a5d661aSToomas Soome * XXX
3254a5d661aSToomas Soome * If -1/2 should produce -1 on this machine, this code is wrong.
3264a5d661aSToomas Soome */
3274a5d661aSToomas Soome quad_t
__moddi3(quad_t a,quad_t b)328331f34b7SToomas Soome __moddi3(quad_t a, quad_t b)
3294a5d661aSToomas Soome {
3304a5d661aSToomas Soome u_quad_t ua, ub, ur;
3314a5d661aSToomas Soome int neg;
3324a5d661aSToomas Soome
3334a5d661aSToomas Soome if (a < 0)
3344a5d661aSToomas Soome ua = -(u_quad_t)a, neg = 1;
3354a5d661aSToomas Soome else
3364a5d661aSToomas Soome ua = a, neg = 0;
3374a5d661aSToomas Soome if (b < 0)
3384a5d661aSToomas Soome ub = -(u_quad_t)b;
3394a5d661aSToomas Soome else
3404a5d661aSToomas Soome ub = b;
341331f34b7SToomas Soome (void)__udivmoddi4(ua, ub, &ur);
3424a5d661aSToomas Soome return (neg ? -ur : ur);
3434a5d661aSToomas Soome }
344331f34b7SToomas Soome
345331f34b7SToomas Soome quad_t
__divmoddi4(quad_t a,quad_t b,quad_t * r)346331f34b7SToomas Soome __divmoddi4(quad_t a, quad_t b, quad_t *r)
347331f34b7SToomas Soome {
348331f34b7SToomas Soome quad_t d;
349331f34b7SToomas Soome
350331f34b7SToomas Soome d = __divdi3(a, b);
351*cca6cfe4SToomas Soome if (r != NULL)
352331f34b7SToomas Soome *r = a - (b * d);
353331f34b7SToomas Soome
354331f34b7SToomas Soome return (d);
355331f34b7SToomas Soome }
356